WO2011124927A1 - Method of analysing a cell or other biological material containing a nucleic acid - Google Patents
Method of analysing a cell or other biological material containing a nucleic acid Download PDFInfo
- Publication number
- WO2011124927A1 WO2011124927A1 PCT/GB2011/050702 GB2011050702W WO2011124927A1 WO 2011124927 A1 WO2011124927 A1 WO 2011124927A1 GB 2011050702 W GB2011050702 W GB 2011050702W WO 2011124927 A1 WO2011124927 A1 WO 2011124927A1
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- compound
- cells
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- cell
- fluorochrome
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B1/00—Dyes with anthracene nucleus not condensed with any other ring
- C09B1/16—Amino-anthraquinones
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B1/00—Dyes with anthracene nucleus not condensed with any other ring
- C09B1/16—Amino-anthraquinones
- C09B1/20—Preparation from starting materials already containing the anthracene nucleus
- C09B1/207—Dyes with amino groups and with onium groups
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09K—MATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
- C09K11/00—Luminescent, e.g. electroluminescent, chemiluminescent materials
- C09K11/06—Luminescent, e.g. electroluminescent, chemiluminescent materials containing organic luminescent materials
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Q—MEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
- C12Q1/00—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
- C12Q1/68—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving nucleic acids
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/30—Staining; Impregnating ; Fixation; Dehydration; Multistep processes for preparing samples of tissue, cell or nucleic acid material and the like for analysis
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/58—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving labelled substances
- G01N33/582—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving labelled substances with fluorescent label
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09K—MATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
- C09K2211/00—Chemical nature of organic luminescent or tenebrescent compounds
- C09K2211/10—Non-macromolecular compounds
- C09K2211/1003—Carbocyclic compounds
- C09K2211/1011—Condensed systems
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/30—Staining; Impregnating ; Fixation; Dehydration; Multistep processes for preparing samples of tissue, cell or nucleic acid material and the like for analysis
- G01N2001/302—Stain compositions
Definitions
- This invention relates to a method of analysing a cell or other biological material, methods of discriminating between intact and non-intact cells, detection systems for same, and also to certain novel compounds and to fluorescent complexes including these compounds and a nucleic acid.
- the invention has wide ranging applications in the analysis of cells and other biological material, with particular, although not exclusive, reference to a class of cell impermeant fluorescent dyes and their uses.
- Methods for the determination of the cell concentration and viability of specimens including the discrimination of cellular integrity in non-fixed cell samples and the staining of nucleic material in fixed and permeabilised cell samples, are in common use in the life sciences and in the health care industries.
- Live versus dead cell analyses have previously exploited the ability of an intact or metabolically active cell to exclude the penetration of colorimetric or fluorescent dyes into one or more cellular compartments. In higher eukaryotes this property primarily relates to the integrity of the plasma membrane, whereas in lower eukaryotes, prokaryotic systems and plants, cell wall composition and disruption can also affect dye penetration and behaviour.
- the transition phases from live to dead cell states have been described but frequently differ between cells of different types and in the rapidity and forms of the processes involved. Live, intact or viable cells are understood to be those that retain both a degree of metabolic function and integrity of the plasma membrane without necessarily implying proliferative capacity.
- An example of membrane reorganisation during cell death is given by the enhanced binding of Annexin V molecules to the cell surface but needs to be distinguished from the binding of Annexin V to cells with disrupted membranes representing a later stage in cell death associated with positive staining by a cell impermeant dye.
- Cells displaying compromised membrane integrity can be described as non-viable or non-intact cells and are understood to include dead, permeabilised or dying cells showing features of membrane disruption.
- This critical transition point can be identified by the enhanced entry of live cell impermeant dyes providing a functional definition of cell death and a method of analysis.
- dyes would have the capacity to bind to residual intracellular structure and therefore preferentially accumulate within the non-intact fraction of cells within a population. It is understood that there is a relatively long term retention of residual nucleic acid bearing structures during cell death and the eventual disassembly of the cell unit into multiple fragments frequently identified as debris.
- Vital stains can be used to detect, and therefore select, a population of cells.
- One approach is to positively assess viability by the detection of active cell metabolism which can be determined by the intracellular conversion of a cell permeant non-fluorescent substrate into a highly fluorescent product that is preferentially retained within an intact cells (e.g. fluorescein diacetate metabolism by intracellular non-specific esterase activity) thereby positively identifying a viable fraction.
- active cell metabolism can be determined by the intracellular conversion of a cell permeant non-fluorescent substrate into a highly fluorescent product that is preferentially retained within an intact cells (e.g. fluorescein diacetate metabolism by intracellular non-specific esterase activity) thereby positively identifying a viable fraction.
- the exclusion of cells with compromised integrity acts to enhance the validity of the information derived from the assay.
- live cell-impermeant stains will enter membrane-compromised cells that are dead or are in later stages of apoptosis or cell death.
- cell impermeant DNA binding dyes dye entry and subsequent interactions with intracellular residual nucleic acids is used to report the compromised status of the membrane of a given cell.
- the 'complex' between the intracellular dye and the residual nucleic acids, preferably DNA is the reporting principle.
- the reagent is no longer being excluded from those cells and now has accessibility for complex formation and therefore provides a negative stain for viability and a positive stain for compromised cells.
- cell samples may also be processed using fixation methods to allow for the analysis of cellular features as part of a wide range of techniques used in the life sciences. The fixation method and cell permeabilisation methods may vary but frequently results in membrane changes that allow the entry of live cell impermeant dyes.
- Dye entry is preferably indicated by the acquisition of a fluorescence signal associated with the high affinity binding of the dye to intracellular nucleic acids and is invariably considered to be aided by fluorescence enhancement upon binding.
- Cell-impermeant (and cell-permeant) fluorescent dyes which variably bind to nucleic acids, are a large group of molecular probes used extensively in the biosciences and readily available from commercial suppliers. Sought features of these agents include: nucleic acid selectivity, excitation and emission characteristics, quantum yield, the potential for fluorescence enhancement upon binding, performance in aqueous environments, degree of exclusion from non- compromised cells (providing a negative stain for viability and a positive stain for cell death) or rapidity of penetration into intact cells for intact cell assays. Selection of a particular dye is often determined by the degree of spectral overlap with other fluorophores incorporated into an assay and the availability of convenient light sources for selective or optimal excitation.
- Fluorescent staining of cells with nucleic acid targeting dyes is therefore a complex matrix of cell status, permeation properties, dye binding specificity, dye binding modes and dye-dye interactions.
- the traditional approach has been to prefer high fluorescence enhancement and high quantum yield dyes.
- a wide range of cell impermeant dyes have found applications in nucleic acid staining. The most frequently used example is propidium iodide (PI).
- PI propidium iodide
- the intensely fluorescent PI signal has the advantage of simple and sensitive detection, but there are disadvantages when this fluorochrome is incorporated into multi-colour analyses.
- PI has the capacity to be excited at UVA (eg 365 nm) wavelengths and by blue light (eg 488 nm) wavelengths, complicating its application when differential excitation is being used to distinguish a fluorescent analyte or an analyte detected by a fluorescent probe.
- PI has no colorimetric signature for convenient analysis of cell staining. In particular, compensation must be applied to the signals gathered in parts of the visible spectrum adjacent to the peak emission region being analysed for PI to account for 'spill over'.
- fluorescence emissions of PI may occupy a region of the spectrum in which emissions originating from a fluorescent analyte, or an analyte detected by a fluorescent probe, may need to be distinguished.
- PI offers some spectral advantage as a live cell impermeant dyes that emit in the red region and beyond (eg > 620 nm wavelength).
- US 5,057,413 teaches the use of the cell permeant nucleic acid dye LDS- 751 where preference for DNA distinguishes between damaged and intact cells based on the amount of fluorescence emitted.
- LDS- 751 the cell permeant nucleic acid dye LDS- 751 where preference for DNA distinguishes between damaged and intact cells based on the amount of fluorescence emitted.
- a distinction between intact and dead cells is enabled using the dye 7-AAD (with low intact cell permeation properties) in the flow cytometric leukaemia/lymphoma assessment of the expression of the leukocyte marker (CD45) to avoid the pitfalls of non-specific staining (Shenkin, Babu et al. 2007).
- United States Patent Application 20070082377 discloses the use of the cell impermeant DNA dye 7-AAD as a component in multiparametric assays which also utilise a fluorescent probe that is a membrane stain, and a fluorescent probe that is a cell-permeable apoptosis-detection probe that binds to active caspase enzymes.
- a fluorescent probe that is a membrane stain
- a fluorescent probe that is a cell-permeable apoptosis-detection probe that binds to active caspase enzymes.
- Such approaches permit the distinction between dead or necrotic cells (detected using the vital stain 7-AAD; when this stain binds to or intercalates with DNA, it becomes detectable, e.g., through a process of fluorescence enhancement upon binding to a nucleic acid) and apoptotic cells characterized by modified caspase activity.
- the present invention in at least some of its embodiments, addresses the above-described problems and needs.
- the present invention in at least some of its embodiments, provides improved cell impermeant dyes, and also provides an improved system which can be used for live/dead cell discrimination using cell impermeant and cell permeant dyes.
- the invention provides cell impermeant dyes having a preferred emission in the far red (eg > 660 nm wavelength or > 690 nm wavelength) and with reduced emission in the orange/red spectral region (eg > 530 ⁇ 620 nm wavelengths).
- A is a C 2 -8 alkylene group
- R , R 2 , R 3 , and R 4 are independently selected from hydrogen, C 1-4 alkyl, C 2-4 dihydroxyalkyl in which the carbon atom attached to the nitrogen atom does not carry a hydroxyl group and no carbon atom is substituted by two hydroxyl groups, or R 2 and R 3 together form a C 2- 6 alkylene group which with the nitrogen atom to which R 2 and R 3 are attached forms a heterocyclic ring
- ⁇ - ⁇ , X 2 and X 3 are independently selected from hydrogen, hydroxyl, NR 1 -A- NR 2 R 3 R 4 + (Z m" )i/ m , halogeno amino, Ci_ 4 alkoxy or C 2- 8 alkanoyloxy; and
- n 1
- Red/far-red fluorescence properties for ready incorporation into multiparameter assays with visible range fluors with little or no spectral overlap, or orange fluorescence for easy use with red fluors
- the present invention provides quaternarised aminoalkylamino anthraquinone compounds which may be used as inter alia fluorescent dyes.
- a quaternarised aminoalkylamino substituent is present at least the 1 position. Further quaternarised aminoalkylamino substituents may be present at the 4, 5, or 8 positions, or combinations thereof.
- International publications WO91/05824 and W099/65992 disclose various kinds of aminoalkylamino anthraquinone compounds which can be used as precursors to the synthesis of compounds of the present invention.
- At least one of X 1 f X 2 and X 3 are NR 1 -A-NR 2 R 3 R + (Z m' )i m .
- X 2 (but not Xi and X 3 ) is NR 1 -A-NR 2 R 3 R + (Z m" )i/ m , ie, an anthraquinone substituted at the 1 ,5 positions with quaternarised aminoalkylamino groups.
- Xi (but not X 2 and X3) is NR 1 -A- NR 2 R 3 R 4 + (Z m" )-i /m , ie, anthraquinones having quaternarised aminoalkylamino substituents at the 1 ,4 positions. 1 ,8 substituted analogues are also possible.
- X-i and X3 are both hydroxyl.
- Xi and X 3 are both hydrogen.
- R 1 is hydrogen, although it is possible to utilise compounds in which the amino moiety at this position is a tertiary amine. In these embodiments, it is preferred that R 1 is a C- aikyl.
- R 2 , R 3 and R 4 are Ci -4 alkyl.
- R 2 , R 3 and R 4 are methyl.
- A is (CH 2 )2.
- the compound is of formula (IA):
- Another preferred compound is a formula (IB):
- counter-anions examples include halides such as chloride, bromide and iodide, physiologically acceptable anions derived from inorganic acids such as phosphoric and sulphuric acids, and organic acids such as acetic, ascorbic, benzoic, citric, fumaric, gluconic, isethionic, lactic, maleic, malic, methane sulphonic, oxalic, succinic, sulphamic and tartaric.
- halides such as chloride, bromide and iodide
- physiologically acceptable anions derived from inorganic acids such as phosphoric and sulphuric acids
- organic acids such as acetic, ascorbic, benzoic, citric, fumaric, gluconic, isethionic, lactic, maleic, malic, methane sulphonic, oxalic, succinic, sulphamic and tartaric.
- the compounds of the present invention can be conveniently prepared by quaternarisation of an aminoalkylamino precursor compound to the compound of formula (I).
- the quaternarisation process can comprise alkylation of the precursor (for example using an alkyl halide reagent) or quaternarisation through formation of an acid addition salt using a suitable organic or inorganic acid,
- the aminoalkylamino anthraquinone compounds discussed previously in connection with International publications WO91/05824 and W099/65992 can serve as suitable precursor compounds to the quaternarisation step.
- Other routes for the synthesis of the precursor compounds which are quaternarised to produce the compounds of the present invention would be readily apparent to the skilled reader.
- the invention extends to a composition including a compound of formula (I) as defined above with a physiologically acceptable diluent or carrier.
- a fluorescent complex including a nucleic acid and a compound of Formula (I):
- A is a C 2- 8 alkylene group
- R 1 , R 2 , R 3 , and R 4 are independently selected from hydrogen, Ci- alkyl, C 2 . 4 dihydroxyalkyl in which the carbon atom attached to the nitrogen atom does not carry a hydroxyl group and no carbon atom is substituted by two hydroxyl groups, or R 2 and R 3 together form a C 2- 6 alkylene group which with the nitrogen atom to which R 2 and R 3 are attached forms a heterocyclic ring;
- X-i, X 2 and X 3 are independently selected from hydrogen, hydroxyl, NR 1 -A- NR 2 R 3 R 4 + (Z m" )i /m , halogeno amino, Ci- alkoxy or C 2- 8 alkanoyloxy; and
- the nucleic acid may be DNA, and the DNA may be present in a cell.
- the DNA may be present in a non-intact cell.
- a method of analysing a sample of cells or other biological material containing nucleic acid including the steps of:
- A is a C 2- 8 alkylene group
- R 1 , R 2 , R 3 , and R 4 are independently selected from hydrogen, Ci- alkyl, C 2-4 dihydroxyalkyl in which the carbon atom attached to the nitrogen atom does not carry a hydroxyl group and no carbon atom is substituted by two hydroxyl groups, or R 2 and R 3 together form a C 2- 6 alkylene group which with the nitrogen atom to which R 2 and R 3 are attached forms a heterocyclic ring;
- X-i , X 2 and X3 are independently selected from hydrogen, hydroxyl, NR -A- NR 2 R 3 R 4 + (Z ⁇ -i/m, halogeno amino, Ci -4 alkoxy or C 2-8 alkanoyloxy; and
- the spectroscopic property associated with absorption of electromagnetic radiation by the compound of Formula (I) is fluorescence
- step c) includes exciting the compound of Formula (I) with electromagnetic radiation, and detecting an emitted fluorescence signal. Fluorescence intensity in pre-defined spectral regions may be measured, although other detection schemes, such as measurements of fluorescence lifetimes, may be used.
- the spectroscopic property associated with the absorption of electromagnetic radiation by the compound of Formula (I) may be a colorimetric property.
- the method may be used for discrimination of cellular nuclei in the sample of cells, in which step b) is performed to cause binding of nucleic acid in cellular nuclei by the compound of Formula (I), and the discrimination of the cellular nuclei is based at least in part on the spectroscopic property detected in step c).
- Step b) may be performed to stain the sample of cells with the compound of Formula (I).
- the method may be one in which cell death accruement is monitored, wherein step b) is performed prior to or during an assay period thereby enabling a continuous or frequent readout of cell death accruement during the assay period.
- Compounds of Formula (IA) are particularly preferred for use in these methods. This approach takes advantage of the non- toxicity of impermeant compounds of the present invention. This means that it is possible to include a compound of Formula (I) with a cell mixture so that the compound of Formula (I) is present during the test. As a cell dies (eg from the influence of a test compound in an assay) the cell becomes stained with the compound of Formula (I).
- Step c) may include detecting fluorescence emitted by individual cells by flow cytometry, intra-cellular location detection by fluorescence microscopy, or any other suitable kind of fluorescence based detection technique. Imaging techniques may be employed. It is understood that a range of imaging systems may be employed for the analysis of fluorescence signals, including but not exclusively fluorescence intensity, polarisation, fluorescence life time, fluorescence spectrum, and spatial disposition of such qualities within a specimen or sample being analysed.
- fixed or permeabilised cells are analysed, wherein the sample of cells are fixed by treatment with a fixative or permeabilising agent.
- the discrimination and staining of cellular nuclei in fixed and permeabilised cells are particularly preferred embodiments.
- step b) further includes treating the sample with at least one other fluorochrome or light-emitting compound
- step c) further includes detecting a spectroscopic property associated with the absorption of electromagnetic radiation by the fluorochrome or light-emitting compound.
- the steps b) and c) associated with the other fluorochrome or light- emitting compound may be performed simultaneously with, or separately from, the steps b) and c) associated with the compound of Formula (I).
- the method discriminates between intact and non-intact cells, in which the compound of formula (I) is cell impermeant, step b) further includes treating the sample with a second fluorochrome or light-emitting compound which is cell permeant, and step c) further includes detecting a spectroscopic property associated with the absorption of electromagnetic radiation by the second fluorochrome or light- emitting compound, wherein the detection of the spectroscopic property associated with the absorption of electromagnetic radiation by the compound of Formula (I) is correlated with the presence of non-intact cells, and the detection of the spectroscopic property associated with the absorption of electromagnetic radiation by the second fluorochrome or light-emitting compound is correlated with the presence of intact cells.
- Non-intact cells are understood to include dead cells, and damaged cells with compromised or disrupted membranes.
- the second fluorochrome or light-emitting compound has a binding potential (which is preferably, but not necessarily, related to binding affinity) for nucleic acid and/or other macromolecular material in the discriminated cells which is lower than that of the compound of Formula (I), and as a consequence competes less efficiently in the presence of the compound of Formula (I) for binding to the nucleic acid and/or other macromolecular material in the discriminated cells so that the second fluorochrome or light-emitting compound is substantially excluded from binding to non-intact cells or masked by the compound of Formula (I).
- a binding potential which is preferably, but not necessarily, related to binding affinity
- the preferred full exclusion of the second fluorochrome or light-emitting compound by the compound of Formula (I) in damaged cells provides for optimal discrimination on the basis of the dual analysis of fluorescence emissions. Further the fluorescence signal from the second fluorochrome or light-emitting compound is effectively eliminated in damaged cells optimally labelled with compound of Formula (I) but could also be detectable at an attenuated level by simply changing the ratio of compound of Formula (I) to that of the second fluorochrome or light-emitting compound providing for a ratiometric analysis of fluorescence attained by the range of co-staining conditions as described above.
- the molar ratios of compounds of the compound of Formula (I) to that of the second fluorochrome or light-emitting compound would be within the range of 1 :10 and 10:1 and more preferably 3:20.
- the staining of intact cells exclusively reporting the presence of the second fluorochrome or light-emitting compound provides additional information of value in determining cell status including, but not exclusively: cell biomass related to total dye binding and the presence of intracellular nucleic acid as a positive fluorescence discriminator for nucleated cells.
- Preferable indications of changes in cellular biomass permit distinction to be made between cells continuing to progress metabolically without intervening cell division preferably in the analysis of cell undergoing long term inhibition of proliferation or cell cycle arrest.
- the second fluorochrome or light-emitting compound is a compound of Formula (II):
- A is a C 2 -e alkylene group
- R 1 , R 2 , and R 3 are independently selected from hydrogen, Ci -4 alkyl, C2-4 dihydroxyalkyl in which the carbon atom attached to the nitrogen atom does not carry a hydroxyl group and no carbon atom is substituted by two hydroxyl groups, or R 2 and R 3 together form a C2-6 alkylene group which with the nitrogen atom to which R 2 and R 3 are attached forms a heterocyclic ring;
- X-i, X 2 and X3 are independently selected from hydrogen, hydroxyl, NR -A- NR 2 R 3 , halogeno amino, C 1-4 alkyloxy or C 2 -s alkanoyloxy.
- the compound of Formula (II) is a 1 ,5 amino substituted anthraquinone, ie, X 2 is NR 1 -A-NR 2 R 3 but Xi and X3 are not.
- a particularly preferred embodiment of this class of 1 ,5 amino substituted anthraquinones is a compound of Formula (IIA)
- discrimination between intact and non-intact cells is made after the sample of cells is exposed to an agent which is potentially cytotoxic or otherwise capable of inducing cell death, in order to monitor the effect of the agent on the sample of cells.
- step b) further includes treating the sample with at least a third fluorochrome or light-emitting compound
- step c) further includes detecting a spectroscopic property associated with the absorption of electromagnetic radiation by at least the third fluorochrome or light- emitting compound and correlating said spectroscopic property with a feature or property of intact cells and/or non-intact cells.
- the detected spectroscopic property of the third fluorochrome or light- emitting compound may be similar to the detected spectroscopic property of the compound of Formula (I), and distinct from the detected spectroscopic property of the second fluorochrome or light-emitted compound, wherein the detected spectroscopic property of the third fluorochrome or light-emitting compound is correlated with a feature or property of intact cells.
- the detected spectroscopic property of the third fluorochrome or light- emitting compound may be similar to the detected spectroscopic property of the second fluorochrome or light-emitting compound and distinct from the detected spectroscopic property of the compound of Formula (I), wherein the detected spectroscopic property of the third fluorochrome or light-emitting compound is correlated with a feature or property of non-intact cells.
- the detected spectroscopic properties in step c) are emitted fluorescence in a pre-defined region of the electromagnetic spectrum, and step c) includes exciting the compound of Formula (I), the second and, optionally, the third and any further, fluorochrome or light-emitting compound with electromagnetic radiation.
- the compound of Formula (I), the second and, optionally, the third fluorochrome or light-emitting compounds are co-excited by a single source of electromagnetic radiation.
- emitted fluorescence of the third fluorochrome or light- emitting compound is in a pre-defined region of the electromagnetic spectrum which is i) similar to that of the emitted fluorescence of the compound of Formula (I), preferably in the red and/or near IR region, and ii) distinct from that of the emitted fluorescence of the second fluorochrome or light-emitting compound.
- the third fluorochrome may be Qdot 705 nm emitting nanocrystals.
- emitted fluorescence of the third fluorochrome or light- emitting compound is in a pre-defined region of the electromagnetic spectrum which is i) similar to that of the emitted fluorescence of the second fluorochrome or light-emitting compound, preferably in the orange region, and ii) distinct from that of the emitted fluorescence of the compound of Formula (I).
- step c) may be performed using flow cytometry, and or using fluorescence microscopy to provide information on cellular location of fluorescence emissions. It is understood that a range of imaging systems may be employed for the analysis of fluorescence signals, including but not exclusively fluorescence intensity, polarisation, fluorescence life time, fluorescence spectrum, and spatial disposition of such qualities within a specimen or sample being analysed.
- Step c) may further include measurements of light scattering from cells. However, useful results can be obtained without requiring light scattering measurements to be performed as well.
- Measurements may be made over a period of time in order to acquire time resolved date, for example to examine accrued changes in cellular integrity or to examine changes in discriminated intact cells as determined by characteristics correlated with the presence of the second and/or third fluorochromes or light-emitting compounds.
- a method of discriminating between intact and non-intact cells including the steps of:
- a binding potential which is preferably, but not necessarily, related to binding affinity
- the following dyes may be used as the cell permeant fluorochrome or light-emitting compound ('number/number' indicates wavelengths in nm for max Excitation versus max Emission):
- SYTO nucleic acid stains Cell-permeant cyanine dyes (the SYTO nucleic acid stains) with lower affinity than the SYTOX dyes and capable of entering live cells preferably but not exclusively SYTO® 40 blue fluorescent nucleic acid stain SYTO® 59 red fluorescent nucleic acid stain, SYTO® 60 red fluorescent nucleic acid stain, SYTO® 61 red fluorescent nucleic acid stain, SYTO® 62 red fluorescent nucleic acid stain, SYTO® 63 red fluorescent nucleic acid stain, SYTO® 64 red fluorescent nucleic acid stain, SYTOX® Blue nucleic acid stain, SYTO® 40 blue fluorescent nucleic acid stain, SYTO® 41 blue fluorescent nucleic acid stain, SYTO® 42 blue fluorescent nucleic acid stain, SYTO® 45 blue fluorescent nucleic acid stain, SYTO® 80 orange fluorescent nucleic acid stain, SYTO® 81 orange fluorescent nucleic acid stain, SY
- DAPI UV-excitable DNA binding fluorochrome 4 ' ,6-diamidino-2- phenylindole, dihydrochloride (DAPI) (Ex358/Em46) or 4 ' ,6-diamidino-2- phenylindole, dilactate (DAPI, dilactate)
- Hoechst dyes preferably but not exclusively Hoechst 34580, Hoechst 33258 (bis-benzimide) as the pentahydrate being a blue fluorescent (Ex352/Em461) AT-selective, minor groove-binding dsDNA- selective fluorochrome, Hoechst 33342: as the trihydrochloride, trihydrate, being a blue fluorescent (Ex350/Em461) AT-selective, minor groove-binding dsDNA- selective binding
- LDS 751 being a nucleic acid stain: (Ex543/Em712) (DNA) (Ex590/Em607) (RNA)
- the following dyes may be used as the cell impermeant fluorochrome or light-emitting compound ('number/number' indicates wavelengths in nm for max Excitation versus max Emission):
- cyanine dimers of the TOTO family cyanine dimer dyes preferably but not exclusively TOTO®-1 iodide (514/533), TO-PRO®-1 iodide (515/531), TOTO®-3 iodide (642/660) 02
- cyanine monomers of the TO-PRO family of dyes dyes preferably but not exclusively YO-PRO-1 (Ex491/Em509), TO-PRO- (Ex515/Em531), TO-PRO®- 3 iodide (642/661), TO-PRO®-5 iodide (745/770), YOYO®-1 iodide (491/509), YO-PRO®-1 iodide (491/509), YOYO®-3 iodide (612/631), YO-PRO®-3 iodide (612/631).
- nucleic acid SYTOX dyes preferably but not exclusively SYTOX Blue (Ex445/Em470), SYTOX Green (Ex504/Em523) and SYTOX Orange (Ex547/Em570).
- a range of detection systems may be employed for the analysis of the different fluorescence signals obtained using the invention, including but not exclusively fluorescence intensity, polarisation, fluorescence life time, fluorescence spectrum. It is further understood that cellular imaging methods may additionally provide spatial disposition and dynamic analyses of such qualities within a specimen or of a sample being analysed.
- a detection system for use in a method according to the third or fourth aspects of the invention, the system including:
- one or more sources of electromagnetic radiation for exciting fluorochromes and light-emitting compounds used in the method a plurality of detectors for detecting spectroscopic properties associated with the absorption of electromagnetic radiation by the fluorochromes and light- emitting compounds;
- a detector analysis system adapted to correlate the detected spectroscopic properties with the presence of intact and non-intact cells thereby to discriminate between intact and non-intact cells.
- the detectors are fluorescence detectors.
- the detection system may have a single source of electromagnetic radiation for co-exciting the fluorochromes and light-emitting compounds.
- the plurality of detectors are in the form of a pair of detectors which detect the spectroscopic properties of all of the fluorochromes and light-emitting compounds.
- the invention may be applied to the investigation of cell integrity in a diverse range of cell types and applications. Where mention is made herein of a cell or cell type, it is preferred that the cell or cell type is a live eukaryotic cell.
- the invention can be used in conjunction with all cell types.
- the cells may be selected without limitation from the following cell types:
- Animal cells including human and mammalian cells derived as biopsy specimens (e.g., by fine needle aspirates), as tissue explants, as primary cultures (e.g., human skin fibroblasts), as transformed cell lines (e.g., SV40 transformed fibroblasts), as immortalized cell lines (e.g., cell lines immortalized with human telomerase reverse transcriptase [hTERT]), or as established tumour cell lines. Plant cells and bacterial cells.
- Human tumour cell lines including those representing specific sites and diseases of therapeutic, diagnostic and analytical interest, preferably those capable of demonstrating adherent growth on a substrate, for example: Brain Cancer, Bladder Cancer, Breast Cancer, Colon and Rectal Cancer, Endometrial Cancer, Kidney Cancer (Renal Cell), Leukaemia, Lung Cancer, Melanoma, Pancreatic Cancer, Prostate Cancer, Skin Cancer (Non-melanoma), Thyroid Cancer.
- Human tumour cell lines routinely available for the purpose of drug screening methodologies such as those indicated in the US National Cancer Institute tumour cell line panel NCI-60 (ref: http://dtp.nci.nih.gov/docs/misc/common_files/cell_list.html):
- Human tumour cell lines selected for their functional expression of specific molecular entities such as transporters of xenobiotic molecules (e.g., the ABCA3 drug transporter expressing in lung cancer lines H522M, A549, and EKVX) and human tumour cells selected for their convenient performance in gene transfer studies (e.g., U2-OS human osteosarcoma cells).
- transporters of xenobiotic molecules e.g., the ABCA3 drug transporter expressing in lung cancer lines H522M, A549, and EKVX
- human tumour cells selected for their convenient performance in gene transfer studies (e.g., U2-OS human osteosarcoma cells).
- Mammalian cell lines used in functional genomics studies e.g., NIH 3T3 murine cell line
- Single-cell forms of vertebrates e.g., components of embryos, larval forms or cells derived from dissociated cell preparations of zebrafish Danio [Brachydanio] rerio).
- Elimination/Toxicity screening protocols e.g., hepatocyte derived cell lines such as HepG2.
- Adult stem cells e.g., hepatocyte derived cell lines such as HepG2.
- Neurones and/or supporting cells of the central nervous system e.g. astrocytes, oligodendrocytes, microglia and Schwann cells.
- Immortal somatic cell hybrids including hybrids that secrete antibodies
- Changes in cell integrity due to changes in cells in response to a physical agent e.g., ionising and non-ionising radiations.
- a fermentation process e.g., yeast life cycle in a brewing application.
- Figure 1 is a diagram of excitation and fluorescence spectra for (a) a number of dyes (b) Compound of Formula (IIA) (c) a compound of Formula (IA);
- Figure 2 is a diagram of fluorescence obtained using a combination of cell permeant and cell impermeant dyes of the invention in conjunction with (a) live cells and (b) dead cells;
- Figure 3 is a diagram of fluorescence spectra for various multi-colour dye combinations based on a cell permeant/cell impermeant dye combination of the invention, in particular (a) shows a three parameter, two colour detection scheme in live cells (b) shows a three parameter, two colour detection scheme for dead cells and (c) shows a multi-colour detection scheme;
- Figure 4 is a diagram of fluorescence obtained from a detection system using a compound of Formula (IA) and Annexin V combination;
- Figure 5 is a diagram of fluorescence obtained via a detection system using a compound of Formula (IA)/Compound (IIA) dye combination
- Figure 6 is a diagram of fluorescence obtained from a two colour three fluorochrome detection system
- Figure 7 is a diagram of fluorescence obtained from a three colour four fluorochrome detection system
- Figure 8 shows absorbance and emission spectra for a compound of
- Figure 9 shows fluorescence obtained from experiments using Annexin V- FITC in combination with (a) propidium iodide (PI) with PI fluorescence intensity on a log scale (b) a compound of Formula (IA), with compound of Formula (IA) fluorescence intensity shown on a linear scale (c) a compound of Formula (IA), with a compound of Formula (IA) fluorescence intensity shown on a log scale;
- PI propidium iodide
- Figure 10 shows prominent nuclear staining of fixed U-2 OS human osteosarcoma cells using a compound of Formula (IA);
- Figure 1 1 shows the staining of cells with compromised membranes using a compound of Formula (IA);
- Figure 12 shows the effect of incubation of human B cell lymphoma cells revealing low toxicity of a compound of Formula (IA);
- Figure 13 shows early stage cell death and corresponding loss in mitochondrial and plasma membrane integrity in human Jurkat cell death in response to staurosporine.
- Figure 14 shows combination tracking of cell state with co-targeted fluorescent probes compound (IA) (dead cells) and compound (IIA) (live cells).
- the invention provides a means of labelling live cells and dead cells using a combination of a permeant dye and an impermeant dye. This combination of W
- dyes can be substantially mutually exclusive, in the sense that detection of the permeant dye can be associated with the presence of live cells, and the detection of the cell impermeant dye can be associated with the presence of dead cells. This principle is shown in Table 1 below:
- the invention provides the capability to associate a live cell with fluorescence from the cell permeant dye, and to associate a dead cell with fluorescence from the cell impermeant dye, since there is little or no "cross channel” interference between the dyes. It will be appreciated that this provides the opportunity to perform numerous advantageous two-colour, two- fluorochrome experiments. Moreover, the present inventors have realised that dye combinations of this type also provide a platform for performing a range of advantageous experiments using one or more further fluorochromes. Table 2 shows without limitation examples of detection systems of this type with reference to the specific cell permeant/cell impermeant dye combination of compound of Formula (IIA)/compound of Formula (IA).
- IA of formula (IA) for an probe for probe fluors combined (IIA) (at Far red (at analyte in an analyte for inact spectrally with a 530 nm) >695 nm) intact cells in non- cells distinct compound staining staining (eg Qdot intact cells (eg for the of formula 705 nm (eg an Annexin analysis ,
- Table 2 Examples of fluorescent probes that can be used with a cell permeant/cell impermeant dye combination and predicted positive or negative staining patterns.
- Figure 1 shows in general terms (ie, diagrammatically) the excitation and fluorescence spectra of Compound of Formula (IIA) (B) (Ex/Em peak at 518/615nm), and a compound of Formula (IA) (A) (Ex/Em peak at 6207660nm). Therefore, the Compound of Formula (IIA) fluorescence is generally in the orange portion of the visible spectrum, whereas compound (IA) fluorescence is generally in the far red portion of the visible spectrum.
- Figure 1 b shows the fluorescence spectrum of Compound of Formula (IIA) alone.
- the compound of Formula (IIA) is a cell permeant dye, and therefore it would be expected that the fluorescence signature B would be in connection with live or dead cells.
- Figure 1 c shows the fluorescence signature A of compound (IA) alone.
- Compound (IA) is a cell impermeant dye, and therefore the fluorescence signature A would only be observed in connection with dead cells or dying and not live cells.
- Figure 2a shows the fluorescence obtained when a certain combination of a cell permeant dye (such as a compound of Formula (I IA)) and a cell impermeant dye (such as compound (IA)) is used in conjunction with live cells. As might perhaps be expected, it is only the fluorescence signature B associated with the cell permeant dye which is observed.
- Figure 2b shows an entirely surprising effect provided by the present invention when certain combinations of cell permeant/cell impermeant dyes such as the compound of Formula (IIA)/compound (IA) combinations are used. It might be expected that a significant contribution of the observed fluorescence would emanate from the compound of Formula (MA) dye. However, it has been found that with dead cells, little or no fluorescence is observed from the compound of Formula (MA) dye. Rather, all or virtually all of the observed fluorescence is due to the cell impermeant dye, compound (IA). Therefore, the compound (IA) dye appears to quench the compound of Formula (MA) signal.
- cell permeant/cell impermeant dyes such as the compound of Formula (IIA)/compound (IA) combinations are used. It might be expected that a significant contribution of the observed fluorescence would emanate from the compound of Formula (MA) dye. However, it has been found that with dead cells, little or no fluorescence is observed from the compound of Formula (MA) dye. Rather
- this quenching of the compound of Formula (IIA) signal appears to occur across the whole of the cell, and not just in the cell nucleus.
- the surprising quenching effect provided by the invention may be due to the cell impermeant dye having a binding affinity for nucleic acid, and, possibly, other macromolecular material in the dead cells, which is higher than that of the cell impermeant dye.
- other mechanisms may play a role.
- the upshot is that it is possible to provide a "traffic light" system to indicate the state of a cell, wherein fluorescence in one spectral region A is associated with dead cells, and fluorescence in another spectral region B is associated with live cells.
- Figure 3 shows some examples of how a three channel, two colour detection system might be provided with reference to the specific cell permeant/cell impermeant dye combination compound of Formula (IIA)/compound (IA),
- Figure 3a shows fluorescence detected in live cells using the spectral ranges A and B. Fluorescence in the range B is associated with emission from the compound of Formula (IIA) as before.
- compound of Formula (IIA) is used in combination with compound (IA) and a further red dye or light emitting agent preferably associated with intact cells such as Qdot 705nm emitting nanocrystals.
- This system exploits the fact that cells which provide a positive compound of Formula (IIA) signal do not exhibit a signal in the red due to compound (IA), and can be positively identified as live cells.
- the invention comprehends that live cells which have been "tagged” in this way through compound of Formula (IIA) fluorescence in the orange have a potential detection channel in the red region A which is free from interference from compound (IA) emission.
- Figure 3b depicts a detection scheme which exploits the existence of a potential detection channel in dead cells in the orange region B which is substantially free from interference from compound of Formula (IIA) fluorescence. As shown in Figure 3b, the presence of compound (IA) fluorescence in the red spectral region A effectively "tags" a cell as a dead cell.
- a fluorescence spectrum such as that shown in Figure 3b can be obtained, wherein the second orange dye can be used to provide further information about dead cells. It is extremely convenient to utilise three fluorochrome, two colour detection systems of this type, since a large amount of information can be extracted using a relatively simple detection system.
- the invention includes the use of multi colour dye combinations utilising fluorescence in more than two regions of the electromagnetic spectrum.
- Figure 3c depicts a generalised multi colour dye fluorescence scheme, wherein one or more dyes which fluoresce in spectral regions differing from the spectral regions A and B are used.
- Figure 4 shows results which might be obtained from a detection system which utilises compound (IA) in combination with an Annexin V assay such as AnnexinV-FITC which fluoresces in the green spectral region.
- This combination of dyes provides enhanced discrimination of the stages of cell death connected with apoptosis.
- a low compound (IA)/low Annexin V signal is indicative of normal cells.
- Apoptotic cells are indicated by an increased Annexin V signal in combination with a low compound (IA) signal.
- the onset of cell death is indicated by the presence of both a high Annexin V signal and a restricted compound (IA) signal. Additional discrimination is provided by a channel comprising a low Annexin V signal and a high compound (IA) signal which is indicative of cellular debris.
- Figure 5 is a plot of the same general type as that shown in Figure 4, which in this instance shows fluorescence intensity in a detection system which utilises the compound of Formula (IIA)/compound (IA) dye combination. Again, a level of the discrimination is observed in the progression of cells through to cell death. More specifically, when a low compound (IA) fluorescence signal is reported, three distinct "channels" can be identified. A positive signal in the orange for compound of Formula (IIA) in combination with a low compound (IA) signal is indicative of normal cells, whereas an enhanced compound of Formula (IIA) signal is indicative of arrested cells. Note that a negative signal for both compound (IA) and compound of Formula (IIA) is indicative of cellular debris.
- a positive compound (IA) signal in combination with a negative compound of Formula (IIA) signal is indicative of dead cells.
- the skilled reader will appreciate from a consideration of Figure 5 that there are potentially two further channels available, i.e., the combination of a high red signal with either a high orange or an enhanced orange signal. Since the high or enhanced orange signal is associated with the presence of live cells, it is not possible to obtain a high compound (IA) signal in combination with these orange signals. Instead, it is possible to utilise a third fluorochrome which fluoresces in the red region, such as Qdot 705 nm emitting nanocrystals, to provide a two colour, three fluorochrome analysis system.
- An advantage with such a system is that a single laser colour may be used to excite all three fluorochromes, for example using 488nm radiation from an Ar-ion laser.
- Figure 6 is a plot of the same general type as that shown in Figure 5, which depicts a two colour, three fluorochrome analysis system using Qdot 705 nm emitting nanocrystals in combination with compound (IA) and compound of Formula (IIA). It can be seen that fluorescence in the red spectral region from the Qdot nanocrystals is observed in the two channels which are made available owing to the absence of compound (IA) fluorescence from live cells.
- Figure 7 shows results which can be obtained from a three colour system which is based on the compound of Formula (IIA)/compound (IA) cell permeant/cell impermeant dye combination.
- a third fluorochrome such as Qdot705 nm emitting nanocrystals which fluoresce in the red region of the spectrum is used in order to probe live cells which have been positively labelled through the detection of compound of Formula (IIA) fluorescence.
- a fourth fluorochrome such as AnnexinV-FITC is also used, with detection being made in the green region of the spectrum.
- This detection arrangement might be characterised as a two laser three colour four fluorochrome analysis technique. As shown in Figure 7, the result which might be obtained from such a system can be presented using a three axis system to represent the fluorescence obtained in the three colour ranges.
- the results obtained can be understood in terms of a three dimensional volume of data, which provides an enhanced level of discrimination in the progression of cells from normal state through apoptosis and cell death.
- the combination of low compound (IA) signal, enhanced compound of Formula (IIA) signal and high Annexin V-FITC signal is indicative of cells which are both arrested and apoptotic
- the combination of high compound (IA) signal, low compound of Formula (IIA) signal and high Annexin V-FITC signal is indicative of dead cells. It can be seen that this system can provide a great deal of information on cellular processes. It should be noted that all cells are present in the detection volume depicted in Figure 7. A suitable multi-colour analysis can be performed in order to interpret the results.
- fluorochromes might be used in order to provide different or further levels of discrimination and information. In principle, further fluorochromes still might be utilised in order to provide further information.
- a further fluorochrome might fluoresce in a different spectral or region to provide an additional colour channel, or, possibly, a fluorochrome which fluoresces in the orange or green spectral regions might be used provided that the detection characteristics of such an additional fluorochrome do not interfere with the compound of Formula (HA) or AnnexinV-FITC detection channels.
- Green and/or cyan dyes may be used in order to track cell change processes.
- Example 1 Synthesis of Compound of Formula (IIA) [1 ,5-Bis ⁇ [2- (dimethylamino)ethyl]amino ⁇ anthracene-9,10-dione] and a Compound of Formula (IB) [1 ,5-Bis ⁇ N-[2-(trimethylamino)ethyl]amino ⁇ anthracene-9,10- dione iodide]
- Compound (IA) was synthesized using the principles described in Example 2 and stored at +4°C as a stock solution of 5 mM compound (IA) dilution in buffer. Absorbance spectra were obtained using a spectrometer and a 20 ⁇ solution of agent dissolved in PBS and measured in a 1 cm path quartz silica cuvette. Fluorescence spectra for a solution of 20 ⁇ compound (IA) in a 1 cm path length semi-micro quartz cuvette were determined by excitation at 633, 589, 534, 488 nm. Fluorescence measurements were made on a Perkin Elmer LS50 spectrofluorometer with slit widths set at 10 nm.
- Compound (IA) may be sub- optimally excited by wavelengths from 488 nm (in flow cytometry) and up to 647 nm (ExAmax 646 nm). Typically, for cell imaging, excitation is performed with either 633 nm or 647 nm wavelengths. Emission spectra are independent of excitation wavelength, ie, all the emission spectra are identical irrespective of excitation wavelength.
- This example relates to later stage cell death associated with the translocation of phosphatidylserine molecules from the inner (cytoplasmic) leaflet of the plasma membrane in human B cell lymphoma (DoHH2) cells that have been exposed to a cytotoxic drug (VP-16). Detection of dose-dependent induction of apoptosis was performed using flow cytometry.
- Compound IA was able to detect with similar accuracy as propidium iodide the non-viable fraction. This fraction showed a dose dependent increase upon increased doses of etoposide. Timed uptakes were done to optimise compound (IA) labelling. Dose modification was also performed to determine optimal concentration of compound (IA).
- VP-16 (VP-16-213; VEPESID; Etoposide) was provided as a 34 mM stock solution (Bristol Meyers Pharmaceuticals, Syracuse, NY) and stored at 4°C.
- Fluorescein-conjugated annexin V (annexin V-FITC) was purchased from Pharmingen (Becton Dickinson UK, Oxford, UK.).
- Propidium iodide (PI) was obtained as a 1 mg/ml solution in H 2 O (Molecular Probes Europe, Leiden, The Netherlands).
- Compound (IA) was formulated in water as a 5 mM solution and stored at 4°C.
- Sample preparation for Annexin-V labelling Samples were prepared for the detection of Annexin V-FITC surface binding to cells undergoing apoptotic changes and co-stained with PI or the compound (IA) to detect loss of plasma membrane integrity. Samples were prepared according to Vermes ef al. Briefly, cell samples (4x 10 5 cells/ml) were washed with cold PBS and resuspended in 1X binding buffer (10 mM Hepes/NaOH, pH 7.4, 140mM NaCI, 2.5 mM CaCl2) at a concentration of 2 x 10 ⁇ cells/ml.
- 1X binding buffer (10 mM Hepes/NaOH, pH 7.4, 140mM NaCI, 2.5 mM CaCl2
- a FACS Vantage flow cytometer (Becton Dickinson Immunocytometry Systems, San Jose, CA) equipped with a Coherent Enterprise II argon ion laser having 488nm and multiline UV (351-355nm) outputs (Coherent, Inc., Santa Clara, CA) was used.
- the Enterprise II laser power was regulated at 30mW (monitored on the multiline UV output)
- CELLQuest software (Becton Dickinson Immunocytometry Systems) was used for signal acquisition and analysis.
- FSC Forward scatter
- SSC side scatter
- FITC and PI fluorescent signals derived from 488nm excitation were detected in logarithmic mode at photomultipliers detecting emissions spectrally selected by optical filters; compound (IA) signal derived from 488nm excitation was detected in logarithmic or linear mode but could also be detected following excitation at 633 nm using a third laser conveniently incorporated into the optical system.
- Compound of Formula (HA) signal derived from excitation at 488 nm was detected in both logarithmic or linear mode. Signals for forward and side scatter and fluorescence were collected for 10,000 cells using the forward light scatter parameter as the master signal. Pulse analysis of fluorescence signals and fluorescence compensation settings were modified to improve recognition of cell subsets in multi-fluor combinations as readily understood in the art. Data are expressed as mean fluorescence intensity (Fl) values and are shown in Figure 9.
- EXAMPLE 5 Prominent nuclear staining of fixed U-2 OS human osteosarcoma cells by a compound of Formula (IA) detected by fluorescence microscopy.
- Chambers were placed onto an Axiovert 100 microscope (Carl Zeiss, Welwyn Garden City, UK and using a 40x, 1.3 NA oil immersion plan apochromat lens) .fluorescence images (Ex: 620/60nm; Em 700/75nm) nm captured using an ORCA-ER CCD camera (Hamamatsu, Reading, UK) and MetaMorph (MDS, USA) acquisition software. Cells showed the localization of high levels of compound (IA) in the nucleus.
- the compound (IA) staining of nuclei were segmented using a simple threshold algorithm which depict the nuclei, and provide binary or mask information of each nucleus (object) localization.
- the original compound (IA) nuclear localisation and after segmentation are shown. Results are shown in Figure 10.
- EXAMPLE 6 The staining of cells with compromised membranes by a compound of Formula (IA) allows for the identification by negative staining of intact cells.
- This example shows the analysis of cell death induction by staurosporine in populations of human Jurkat cells analysed by flow cytometry.
- Cell culture and drug treatment A Jurkat cell line was used in this study
- Jurkat cultures was routinely maintained in RPMI 1640 supplemented with 10% FCS and 100 U ml-1 penicillin, 100 g ml-1 streptomycin, and 2mM glutamine. The cells were passaged twice weekly at an initiating density of 5 >;10 4 cells ml "1 cultured at 37°C in a humidified atmosphere of 5% CO2/95% air. Cells were set at 0.5x10 5 cells/ml, 5 ml per flask. Cells were exposed to 0 and 2 ⁇ staurosporine for 24 hours under standard culture conditions to induce cell death. Compound (IA) (3 ⁇ ) from a 5 mM stock was added to each sample and analysed by flow cytometry.
- EXAMPLE 7 The effect of incubation of human B cell lymphoma (SU- DHL-4) cells with a compound of Formula (IA) revealing the low toxicity of the cell impermeant dye indicating an advantageous property for incorporation into long term live cell incubation studies for the determination of the accrual of cell death associated with a given treatment.
- Cell culture and treatment A human follicular B-lymphoma cell lines were used in this study.
- SU-DHL-4 was routinely maintained in RPMI 1640 supplemented with 10% FCS and 100 U ml-1 penicillin, lOOpgml "1 streptomycin, and 2 mM glutamine.
- the cells were passaged twice weekly at an initiating density of 5 *10 4 cells ml "1 cultured at 37°C in a humidified atmosphere of 5% C0 2 /95% air. Cells were set at 0.5x10 5 cells/ml at 5 ml per flask. Each culture was continuously exposed to one of three compound (IA) doses (0, 3 and 10 ⁇ ) for 96 hours under standard culture conditions. At time (t) 0, 24, 48, 72 and 96 hours cell density was determined by Coulter counting of 0.4 ml samples from each flask. Data are displayed as increase in relative cell number (Nt/NO) (695LP) against time (hours) for the given concentration of compound (IA). The results are shown in Figure 12.
- EXAMPLE 8 Early stage in human Jurkat cell death associated with the loss of mitochondrial membrane potential in response to the apoptosis inducing agent staurosporine.
- the dye JC-1 (5, 5 ' , 6, 6 ' -tetrachloro-1 , ⁇ , 3, 3 ' - tetraethylbenzimidazol-carbocyanine iodide) is a lipophilic fluorescent cation that incorporates into the mitochondrial membrane, where it can form aggregates 2011/124927
- a Jurkat cell line was used in this study Jurkat cultures was routinely maintained in RPMI 1640 supplemented with 10% FCS and 100 U ml-1 penicillin, 100 pg ml-1 streptomycin, and 2mM glutamine. The cells were passaged twice weekly at an initiating density of 5 x10 4 cells ml "1 cultured at 37°C in a humidified atmosphere of 5% C02/95% air. For the assay, cells were set at 0.5x10 s cells/ml, 1 ml per well. Cells were exposed to 0 (control conditions) and 1 ⁇ staurosporine for 4 hours. Cells were washed and exposed to JC-1 (RPM).
- Compound (IA) (3 ⁇ ) from a 5 mM stock was added to each sample. These were then analysed by flow cytometry or placed into a Nunc, 2 Well Lab-Tek II, (Fisher Scientific) and analysed by three channel confocal microscopy.
- Multi-parameter flow cytometry of staurosporine treated cells A FACS Vantage flow cytometer (as for example above). Forward scatter (FSC) and side scatter (SSC) were acquired in linear mode. JC-1 two parameter fluorescent signal were derived from 488 nm excitation were detected in logarithmic mode Green J-monomer was detected using FL1 (530/30 nm emission); Orange J- aggregate was detected using FL2 (585/42 nm emission). Compound (IA) fluorescent signals also derived from 488nm excitation were detected in logarithmic mode at FL3 at 695LP. Signals for forward and side scatter and fluorescence were collected for 10,000 cells using the forward light scatter parameter as the master signal. Results shown in Figure 13. (A-C).
- JC-1 data are displayed as contour plots fluorescence intensity (585/42 nm) for J- aggregate against fluorescence intensity (530/30 nm) for J-monomer. These are further segmented to derive the cells with high mitochondrial membrane potential (upper region) and cells with low mitochondrial potential (lower region). Cell viability is simultaneously depicted in these two fractions with compound (IA).
- the upper region consists of predominantly live cells and the lower region consists of both non-viable and live cells, compound (IA) functionality can depict these sub-fractions (early (compound (IA) negative) and late apoptosis (compound (IA) positive and permeable).
- the scanning unit was a BioRad Radiance MP system (BioRad Microscience, Hemel Hempstead, UK) linked to a Nikon Eclipse TE300 inverted microscope, using a planapo 60x/1.4 NA oil immersion lens.
- Three channel, three-dimensional (3D) (x,y,z) images were collected using a confocal configuration (pinhole closed). All channels green (J-monomer excitation at 488 nm emission at 500-530 nm); orange ⁇ J-aggregate excitation at 488 nm emission at 590/70; and red (compound (IA)J (non-viable cell marker excitation at 637 nm emission at 660LP) were collected simultaneously.
- the 3D image sequence were processed into single maximum projection images, and all three channels displayed as J- monomer, J-aggregate and DNA nucleus cells. Results are shown in Figure 13 (D).
- Example 9 Combination tracking of cell status.
- a human follicular B-lymphoma cell line was used in this study.
- DoHH2 was routinely maintained in RPMI 1640 supplemented with 5% FCS and 100 U ml-1 penicillin, 100 pgml "1 streptomycin, and 2mM glutamine.
- the cells were passaged twice weekly at an initiating density of 5 > ⁇ 10 4 cells ml "1 cultured at 37°C in a humidified atmosphere of 5% C0 2 /95% air.
- Cells were set at 5x10 5 cells/per ml and exposed to VP-16 doses (0.25 ⁇ ) to induce apoptosis.
- 20 ⁇ Compound (IIA) and 4 ⁇ compound (IA) were added to 1 ml of cells and incubated under standard culture conditions for 10 minutes. The samples were analysed by flow cytometry.
- a FACS Vantage flow cytometer (as for example above) was used.
- Compound (IIA) and compound (IA) fluorescent signals derived from 488nm excitation were detected in linear mode at FL2 for Compound (IIA) (585/42 nm filters); compound (IA) signal derived from 488nm were detected in linear mode at FL3 with a 695LP filter and a FL1/2 560 nm SP dichroic SP to determine scatter properties.
- Signals for forward and side scatter and fluorescence were collected for 10,000 cells using the forward light scatter parameter as the master signal. Data are expressed as contour plots and are shown in Figure 14. Contour plots of side versus forward scatter depict two populations of cells.
- Compound (IIA) and compound (IA) provide functional status of these cultures.
- All cells are accounted in the assay using these two co-targetting fluorophores.
- Compound (IA) identifies the non-intact cell fraction, while the Compound (IIA) positive cells represent the live cell (viable) fraction. Note that this viable fraction has two populations further depicting an accrual of an arrested (G2) population.
- the Compound (IIA) fraction represented a unique fraction with a higher forward scatter properties (ie cell size), while the compound (IA) population displayed lower mean forward scatter properties.
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JP2013094135A (en) * | 2011-11-02 | 2013-05-20 | Waseda Univ | Method for evaluating safety of artificial nanomaterial |
WO2013166337A1 (en) | 2012-05-02 | 2013-11-07 | Charles River Laboratories, Inc. | Method of detecting viable cells in a cell sample |
WO2013166336A1 (en) | 2012-05-02 | 2013-11-07 | Charles River Laboratories, Inc. | Viability staining method |
US8790892B2 (en) | 2011-04-04 | 2014-07-29 | Biotium, Inc. | Substituted anthraquinone dyes for cellular stains and enzyme detection |
JP2015514403A (en) * | 2012-04-05 | 2015-05-21 | ベクトン・ディキンソン・アンド・カンパニーBecton, Dickinson And Company | Sample preparation for flow cytometry |
JP2015529660A (en) * | 2012-08-08 | 2015-10-08 | バイオステータス リミテッド | Novel compounds and their use |
US9933341B2 (en) | 2012-04-05 | 2018-04-03 | Becton, Dickinson And Company | Sample preparation for flow cytometry |
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GB201005939D0 (en) * | 2010-04-09 | 2010-05-26 | Biostatus Ltd | Method of analysing a cell or other biological material containing nucleic acid |
US20160021830A1 (en) * | 2013-12-17 | 2016-01-28 | The Penn State Research Foundation | Manipulation of light spectral quality to reduce parasitism by cuscuta and other plant parasites |
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