WO1996030520A2 - Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein - Google Patents
Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein Download PDFInfo
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- WO1996030520A2 WO1996030520A2 PCT/US1996/004117 US9604117W WO9630520A2 WO 1996030520 A2 WO1996030520 A2 WO 1996030520A2 US 9604117 W US9604117 W US 9604117W WO 9630520 A2 WO9630520 A2 WO 9630520A2
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- protein
- dna molecule
- human papillomavirus
- dna
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Classifications
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/005—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/12—Antivirals
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/12—Antivirals
- A61P31/20—Antivirals for DNA viruses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/51—Medicinal preparations containing antigens or antibodies comprising whole cells, viruses or DNA/RNA
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2710/00—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA dsDNA viruses
- C12N2710/00011—Details
- C12N2710/20011—Papillomaviridae
- C12N2710/20022—New viral proteins or individual genes, new structural or functional aspects of known viral proteins or genes
Definitions
- the present invention is directed to a synthetic DNA molecule encoding purified human papillomavirus type 1 1 LI protein and derivatives thereof.
- Figure 1 is a schematic of the construction of the HPV6/1 1 hybrid LI gene using synthetic oligonucleotides.
- Figure 2 shows the nucleotide sequence of the HPV6/1 1 hybrid, published HPV6a and published HPVl 1 LI genes.
- Figure 3 shows the bidirectional yeast expression vector pGALl-10 used to express papillomavirus LI capsid proteins.
- Figure 4 is a Northern analysis of HPVl 1 LI mRNA from yeast.
- Figure 5 shows expression of HPVl 1 LI protein in yeast by Western analysis (immunoblot).
- Figure 6 shows ELISA reactivities of HPVl 1 LI VLPs expressed from wild-type (wt) HPVl 1 compared to HPV6/1 1 hybrid DNA.
- Figure 7 is an electron micrograph of HPVl 1 LI VLPs expressed in yeast.
- Figure 8 shows the nucleotide sequence of the HPV6/1 1 hybrid gene.
- Papillomavirus (PV) infections occur in a variety of animals, including humans, sheep, dogs, cats, rabbits, monkeys, snakes and cows.
- Papillomaviruses infect epithelial cells, generally inducing benign epithelial or fibroepithelial tumors at the site of infection.
- PV are species specific infective agents; a human papillomavirus cannot infect a nonhuman animal.
- Papillomaviruses may be classified into distinct groups based on the host that they infect.
- Human papillomaviruses (HPV) are further classified into more than 70 types based on DNA sequence homology. PV types appear to be type- specific immunogens in that a neutralizing immunity to infection by one type of papillomavirus does not confer immunity against another type of papillomavirus.
- HPV types 1 , 2, 3, 4, 7, 10 and 26-29 cause benign warts in both normal and immunocompromised individuals.
- HPV types 5, 8, 9, 12, 14, 15, 17, 19-25, 36 and 46-50 cause flat lesions in immunocompromised individuals.
- HPV types 6, 11, 34, 39, 41-44 and 51-55 cause nonmalignant condylomata of the genital or respiratory mucosa.
- HPV types 16, 18, 31, 33, 35, 45, and 58 cause epithelial dysplasia of the genital mucosa and are associated with the majority of in situ and invasive carcinomas of the cervix, vagina, vulva and anal canal.
- Papillomaviruses are small (50-60 nm), nonenveloped, icosahedral DNA viruses that encode for up to eight early and two late genes.
- the open reading frames (ORFs) of the virus genomes are designated El to E8 and LI and L2, where "E” denotes early and “L” denotes late.
- LI and L2 code for virus capsid proteins.
- the early (E) genes are associated with functions such as viral replication, transcriptional regulation and cellular transformation.
- the LI protein is the major capsid protein and has a molecular weight of 55-60 kDa.
- L2 protein is a minor capsid protein which has a predicted molecular weight of 55-60 kDa and an apparent molecular weight of 75-100 kDa as determined by polyacrylamide gel electrophoresis. Immunological data suggest that most of the L2 protein is internal to the LI protein within the viral capsomere.
- the LI ORF is highly conserved among different papillomaviruses. The L2 proteins are less conserved among different papillomaviruses.
- the LI and L2 genes have been identified as good targets for immunoprophylaxis. Some of the early genes have also been demonstrated to be potential targets of vaccine development. Studies in the cottontail rabbit papillomavirus (CRPV) and bovine papillomavirus (BPV) systems have shown that immunizations with recombinant LI and/or L2 proteins (produced in bacteria or by using vaccinia vectors) protected animals from viral infection. Expression of papillomavirus LI genes in baculovirus expression systems or using vaccinia vectors resulted in the assembly of virus-like particles (VLP) which have been used to induce high-titer virus-neutralizing antibody responses that correlate with protection from viral challenge. Furthermore, the LI and L2 genes have been used to generate vaccines for the prevention and treatment of papillomavirus infections in animals.
- VLP virus-like particles
- PV is not readily cultivated in vitro, it is difficult to produce the required amounts of LI and L2 protein by in vitro propagation of PV.
- the resultant supply problems make it difficult to characterize PV and PV proteins. Accordingly, it would be useful to develop a readily renewable source of crude PV proteins, especially PV LI and L2 proteins or modified LI and L2 proteins. It would also be useful to develop methods of purifying large quantities of the crude papillomavirus proteins to levels of purity suitable for immunological studies and vaccine development. It would also be useful to produce large quantities of papillomavirus proteins having the immunity-conferring properties of the native proteins, such as the conformation of the native protein.
- HPV6 and 1 1 are causative agents for ⁇ 90% of benign genital warts and are only rarely associated with malignancies (Gissmann et al., 1983, PNAS 80, 560-563).
- HPV6a is considered to be the most abundant HPV6 subtype in condyloma accuminata (Brown, D.
- HPV 1 1 replication in the epithelial cells of the respiratory tract stimulates the proliferation of these cells which can lead to isolated lesions of minor clinical relevance or to multiple spreading lesions and recurring disease.
- Recurrent respiratory papillomatosis a disease which more often afflicts the juvenile population, can be a life-threatening disease by causing obstructions in the respiratory tract.
- an animal model which allows the replication of infectious HPV 1 1 has been developed (Kreider et al. 1985, Nature 317, 639-640; Kreider et al. 1987, J. Virol. 61 , 590-593).
- the model enabled the identification of conformational neutralizing epitopes on native virions and baculovirus- expressed VLPs using monoclonal antibodies (Christensen et al 1990, J. Virol. 64, 5678-5681 ; Christensen and Kreider 1991 , Virus Res. 21, 169- 179; Christensen and Kreider 1993, Virus Res. 28, 195-202; Christensen et al. 1994, 75, 2271-2276).
- Virus-like particles containing HPVl 1 LI protein have been expressed in both insect and mammalian cell systems. Expression of VLPs in yeast cells offers the advantages of being cost-effective and easily adapted to large-scale growth in fermenters. However, the HPV 1 1 LI protein is expressed at low levels in yeast cells. This was observed to be a result of truncation of the HPVl 1 LI mR A. In contrast, the HPV6 Ll gene is transcribed as full-length mRNA and is expressed to high levels. By modifying the HPV6 LI DNA to encode the HPVl 1 LI protein, it is possible to facilitate the transcription of full-length mRNA resulting in increased HPVl 1 LI protein expression.
- the present invention provides an HPV6/11 hybrid LI gene sequence as well as a method for the construction of the HPV6/11 hybrid LI gene using synthetic oligonucleotides.
- the hybrid gene was designed using the HPV6a LI sequence (Hofmann, K. J., et al., 1995, Virology, accepted for publication) but contains the minimal number of base changes necessary to encode the HPVl 1 LI protein.
- the HPV6/11 hybrid gene does not contain yeast-recognized internal transcription termination signals; as a result full-length HPV6/11 mRNA is produced and expression of HPVl 1 LI protein is increased.
- the present invention is directed to highly purified PV LI protein.
- the invention also comprises methods by which recombinant papillomavirus proteins having the immunity-conferring properties of the native papillomavirus proteins are produced and purified.
- the present invention is directed to the production of prophylactic and therapeutic vaccines for papillomavirus infection. Electron microscopy and binding to conformational antibodies demonstrate that the recombinant proteins of the present invention are capable of forming virus-like particles.
- the present invention is directed to a synthetic DNA molecule encoding purified human papillomavirus type 1 1 LI protein and derivatives thereof.
- the present invention is directed to a synthetic DNA molecule encoding purified human papillomavirus type 1 1 LI protein and derivatives thereof.
- Various embodiments of the invention include but are not limited to recombinant HPV DNA molecules, RNA complementary to the recombinant HPV DNA molecules, proteins encoded by the recombinant DNA molecules, antibodies to the recombinant DNA molecules and related proteins, compositions comprising the DNA, RNA, proteins or antibodies, methods of using the DNA, RNA, proteins or antibodies as well as derivatives thereof.
- Such derivatives include but are not limited to peptides and proteins encoded by the DNA, antibodies to the DNA or antibodies to the proteins encoded by the DNA, vaccines comprising the DNA or vaccines comprising proteins encoded by the DNA, immunological compositions comprising the DNA or the proteins'encoded by the DNA, kits containing the DNA or RNA derived from the DNA or proteins encoded by the DNA.
- HPV6 andl 1 are causative agents for ⁇ 90% of benign genital warts and are only rarely associated with malignancies (Gissmann et al., 1983, PNAS 80, 560-563).
- Recurrent respiratory papillomatosis a disease which more often afflicts the juvenile population, can be a life-threatening disease by causing obstructions in the respiratory tract.
- an animal model which allows the replication of infectious HPVl 1 has been developed (Kreider et al. 1985, Nature 317, 639-640; Kreider et al. 1987, J. Virol. 61, 590- 593).
- the model enabled the identification of conformational neutralizing epitopes on native virions and baculovirus-expressed VLPs using monoclonal antibodies (Christensen et al. 1990, J. Virol 64, 5678- 5681 ; Christensen and Kreider 1991, Virus-Res. 21 , 169- 179; Christensen and Kreider 1993, Virus Res. 28, 195-202; Christensen et al. 1994, 75, 2271 -2276).
- papillomavirus proteins having the immunity-conferring properties of the native proteins, such as the conformation of the native protein.
- Such highly purified proteins would also be useful in the preparation of a variety of reagents useful in the study of PV infection; such reagents include but are not limited to polyclonal antibodies, monoclonal antibodies, and analytical standards.
- Virus-like particles containing HPVl 1 LI protein have been expressed in both insect and mammalian cell systems. Expression of VLPs in yeast cells offers the advantages of being cost-effective and easily adapted to large-scale growth in fermenters.
- the HPVl 1 LI protein is expressed at low levels in yeast cells. This was observed to be a result of truncation of the HPVl 1 LI mRNA.
- the HPV6 LI gene is transcribed as full-length mRNA and is expressed to high levels. By modifying the HPV6 LI DNA to encode the HPVl 1 LI protein, it is possible to facilitate the transcription of full-length mRNA resulting in increased HPVl 1 LI protein expression.
- the present invention provides an HPV6/11 hybrid LI gene as well as a method for the construction of the HPV6/1 1 hybrid LI gene using synthetic oligonucleotides.
- the hybrid gene was designed using the HPV6a LI sequence but contains the minimal number of base changes necessary to encode the HPVl 1 LI protein.
- the HPV6/11 hybrid gene does not contain yeast-recognized internal transcription termination signals, resulting in higher levels of mRNA and consequently increased HPV l 1 LI protein expression.
- Pharmaceutically useful compositions comprising the DNA or proteins encoded by the DNA may be formulated according to known methods such as by the admixture of a pharmaceutically acceptable carrier. Examples of such carriers and methods of formulation may be found in Remington's Pharmaceutical Sciences. To form a pharmaceutically acceptable composition suitable for effective administration, such compositions will contain an effective amount of the protein or VLP. Such compositions may contain proteins or VLP derived from more than one type of HPV.
- compositions of the invention are administered to an individual in amounts sufficient to treat or diagnose PV infections.
- the effective amount may vary according to a variety of factors such as the individual's condition, weight, sex and age. Other factors include the mode of administration.
- the compositions will be administered in dosages ranging from about 1 meg to about 1 mg.
- the pharmaceutical compositions may be provided to the individual by a variety of routes such as subcutaneous, topical, oral, mucosal, intravenous and intramuscular.
- the vaccines of the invention comprise DNA, RNA or proteins encoded by the DNA that contain the antigenic determinants necessary to induce the formation of neutralizing antibodies in the host. Such vaccines are also safe enough to be administered without danger of clinical infection; do not have toxic side effects; can be administered by an effective route; are stable; and are compatible with vaccine carriers.
- the vaccines may be administered by a variety of routes, such as orally, parenterally, subcutaneously, mucosally, intravenously or intramuscularly.
- the dosage administered may vary with the condition, sex, weight, and age of the individual; the route of administration; and the type PV of the vaccine.
- the vaccine may be used in dosage forms such as capsules, suspensions, elixirs, or liquid solutions.
- the vaccine may be formulated with an immunologically acceptable carrier.
- the vaccines are administered in therapeutically effective amounts, that is, in amounts sufficient to generate a immunologically protective response.
- the therapeutically effective amount may vary according to the type of PV.
- the vaccine may be administered in single or multiple doses.
- the purified proteins of the present invention may be used in the formulation of immunogenic compositions.
- Such compositions when introduced into a suitable host, are capable of inducing an immune response in the host.
- antibody includes both polyclonal and monoclonal antibodies, as well as fragments thereof, such as, Fv, Fab and F(ab)2 fragments that are capable of binding antigen or hapten.
- the proteins and protein derivatives of the present invention may be used to serotype HPV infection and HPV screening.
- the purified proteins, VLP and antibodies lend themselves to the formulation of kits suitable for the detection and serotyping of HPV.
- a kit would comprise a compartmentalized carrier suitable to hold in close confinement at least one container.
- the carrier may further comprise reagents such as LI or L2 proteins or VLPs derived from recombinant HPV6/11 or other recombinant HPV type DNA molecules or antibodies directed against these proteins.
- the carrier may also contain means for detection such as labeled antigen or enzyme substrates or the like.
- the purified proteins are also useful as immunological standards, molecular weight markers and molecular size markers.
- this invention is also directed to those DNA sequences which contain alternative codons which code for the eventual translation of the identical amino acid.
- a sequence bearing one or more replaced codons will be defined as a degenerate variation.
- mutations either in the DNA sequence or the translated protein which do not substantially alter the ultimate physical properties of the expressed protein. For example, substitution of valine for leucine, arginine for lysine, or asparagine for glutamine may not cause a change in functionality of the polypeptide.
- DNA sequences coding for a peptide may be altered so as to code for a peptide having properties that are different than those of the natarally-occurring peptide.
- Methods of altering the DNA sequences include, but are not limited to site directed mutagenesis.
- a "functional derivative" of the HPV 6/1 1 hybrid gene is a compound that possesses a biological activity (either functional or structural) that is substantially similar to the biological activity of HPV6/1 1.
- the term “functional derivatives” is intended to include the "fragments,” “variants,” “degenerate variants,” “analogs” and “homologues” or to "chemical derivatives" of HPV 6/11.
- analog refers to a molecule substantially similar in function to either the entire HPV6/1 1 molecule or to a fragment thereof.
- the cloned HPV6/1 1 DNA or fragments thereof obtained through the methods described herein may be recombinantly expressed by molecular cloning into an expression vector containing a suitable promoter and other appropriate transcription regulatory elements, and transferred into prokaryotic or eukaryotic host cells to produce recombinant HPVl 1.
- Techniques for such manipulations are fully described in Sambrook, J., et al., supra, and are known in the art.
- Expression vectors are defined herein as DNA sequences that are required for the transcription of cloned copies of genes and the translation of their mRN As in an appropriate host.
- Such vectors can be used to express eukaryotic genes in a variety of hosts such as bacteria, bluegreen algae, plant cells, insect cells, fungal cells and animal cells. Specifically designed vectors allow the shuttling of DNA between hosts such as bacteria-yeast or bacteria-animal cells or bacteria-fungal cells or bacteria-invertebrate cells.
- An appropriately constructed expression vector should contain: an origin of replication for autonomous replication in host cells, selectable markers, a limited number of useful restriction enzyme sites, a potential for high copy number, and active promoters.
- a promoter is defined as a DNA sequence that directs RNA polymerase to bind to DNA and initiate RNA synthesis.
- a strong promoter is one which causes mRNAs to be initiated at high frequency.
- Expression vectors may include, but are not limited to, cloning vectors, modified cloning vectors, specifically designed plasmids or viruses.
- mammalian expression vectors may be used to express HPV6/11 DNA or fragments thereof in mammalian cells.
- Commercially available mammalian expression vectors which may be suitable for recombinant HPV 6/1 1 DNA expression, include but are not limited to, pcDNA3 (Invitrogen), pMClneo (Stratagene), pXTl (Stratagene), pSG5 (Stratagene), EBO-pSV2-neo (ATCC 37593) pBPV- 1(8-2) (ATCC 371 10), pdBPV-MMTneo(342- 12) (ATCC 37224), pRSVgpt (ATCC 37199), pRSVneo (ATCC 37198), pSV2-dhfr (ATCC 37146), pUCTag (ATCC 37460), and ⁇ ZD35 (ATCC 37565).
- bacterial expression vectors may be used to express HPV6/1 1 DNA or fragments thereof in bacterial cells.
- Commercially available bacterial expression vectors which may be suitable for recombinant HPV 6/1 1 DNA expression include, but are not limited to pETl l a (Novagen), lambda gtl 1 (Invitrogen), pcDNAII (Invitrogen), pKK223-3 (Pharmacia).
- a variety of fungal cell expression vectors may be used to express HPV6/1 1 or fragments thereof in fungal cells.
- Commercially available fungal cell expression vectors which may be suitable for recombinant HPV6/1 1 DNA expression include but are not limited to pYES2 (Invitrogen), Pichia expression vector (Invitrogen) and Hansenula expression (Rhein Biotech, Dusseldorf, Germany).
- insect cell expression vectors may be used to express HPV6/1 1 DNA or fragments thereof in insect cells.
- insect cell expression vectors which may be suitable for recombinant expression of HPV6/11 DNA include but are not limited to pBlue Bac III (Invitrogen).
- An expression vector containing HPV 6/11 DNA or fragments thereof may be used for expression of HPV 1 1 proteins or fragments of HPVl 1 proteins in a cell, tissue, organ, or animal.
- Animal, as used herein, includes humans.
- Host cells may be prokaryotic or eukaryotic, including but not limited to bacteria such as E. coli, fungal cells such as yeast, mammalian cells including but not limited to cell lines of human, bovine, porcine, monkey and rodent origin, and insect cells including but not limited to Drosophila and silkworm derived cell lines.
- L cells L-M(TK-) (ATCC CCL 1.3), L cells L-M (ATCC CCL 1.2), 293 (ATCC CRL 1573), Raji (ATCC CCL 86), CV-1 (ATCC CCL 70), COS-1 (ATCC CRL 1650), COS-7 (ATCC CRL 1651), CHO-K1 (ATCC CCL 61), 3T3 (ATCC CCL 92), NIH/3T3 (ATCC CRL 1658), HeLa (ATCC CCL 2), C127I (ATCC CRL 1616), BS-C-1 (ATCC CCL 26) and MRC-5 (ATCC CCL 171).
- L cells L-M(TK-) ATCC CCL 1.3
- L cells L-M (ATCC CCL 1.2), 293 (ATCC CRL 1573), Raji (ATCC CCL 86), CV-1 (ATCC CCL 70), COS-1 (ATCC CRL 1650), COS-7 (ATCC CRL 1651), CHO-K1 (ATCC C
- the expression vector may be introduced into host cells via any one of a number of techniques including but not limited to transformation, transfection, lipofection, protoplast fusion, and electroporation.
- the expression vector-containing cells are clonally propagated and individually analyzed to determine whether they produce HPV 1 1 protein. Identification of HPV 11 expressing host cell clones may be done by several means, including but not limited to immunological reactivity with anti-HPV 1 1 antibodies. Expression of HPV DNA fragments may also be performed using in vitro produced synthetic mRNA or native mRNA.
- Synthetic mRNA or mRNA isolated from cells expressing HPV6/1 1 hybrid DNA can be efficiently translated in various cell-free systems, including but not limited to wheat germ extracts and reticulocyte extracts, as well as efficiently translated in cell based systems, including but not limited to microinjection into frog oocytes, with microinjection into frog oocytes being preferred.
- HPV 1 1 protein may be recovered to provide HPV 1 1 protein in purified form.
- HPVl 1 purification procedures are available and suitable for use.
- recombinant HPVl 1 protein may be purified from cell lysates and extracts by various combinations of, or individual application of salt fractionation, ion exchange chromatography, size exclusion chromatography, hydroxylapatite adso ⁇ tion chromatography and hydrophobic interaction chromatography.
- recombinant HPVl 1 protein may be separated from other cellular prot ⁇ ins by use of an ixnmunoaffinity column made with monoclonal or polyclonal antibodies specific for full length nascent HPV 11 , or polypeptide fragments of HPV 11.
- Monoclonal and polyclonal antibodies may be prepared according to a variety of methods known in the art.
- Monoclonal or monospecific antibody as used herein is defined as a single antibody species or multiple antibody species with homogenous binding characteristics for HPVl 1.
- Homogenous binding as used herein refers to the ability of the antibody species to bind to a specific antigen or epitope.
- monospecific antibodies may be utilized to produce antibodies specific for HPV polypeptide fragments, or full-length nascent HPN polypeptides. Specifically, it is apparent to those skilled in the art that monospecific antibodies may be generated which are specific for the fully functional HPV proteins or fragments thereof.
- the present invention is also directed to methods for screening for compounds which modulate the expression of D ⁇ A or R ⁇ A encoding HPV as well as the function(s) of HPVl 1 protein in vivo.
- Compounds which modulate these activities may be D ⁇ A, R ⁇ A, peptides, proteins, or non-proteinaceous organic molecules.
- Compounds may modulate by increasing or attenuating the expression of D ⁇ A or R ⁇ A encoding HPVl 1 , or the function of HPVl 1 protein.
- Compounds that modulate the expression of D ⁇ A or R ⁇ A encoding HPV 1 1 or the function of HPVl 1 protein may be detected by a variety of assays.
- the assay may be a simple "yes/no" assay to determine whether there is a change in expression or function.
- the assay may be made quantitative by comparing the expression or function of a test sample with the levels of expression or function in a standard sample.
- Kits containing HPV6/11 hybrid DNA, fragments of HPV6/11 hybrid DNA, antibodies to HPV6/11 DNA or HPVl 1 protein, HPV6/1 1 hybrid RNA or HPV 1 1 protein may be prepared. Such kits are used to detect DNA which hybridizes to HPV6/11 DNA or to detect the presence of HPV 1 1 protein or peptide fragments in a sample. Such characterization is useful for a variety of purposes including but not limited to forensic analyses and epidemiological studies. Nucleotide sequences that are complementary to the
- HPV6/1 1 DNA sequence may be synthesized for antisense therapy.
- These antisense molecules may be DNA, stable derivatives of DNA such as phosphorothioates or methylphosphonates, RNA, stable derivatives of RNA such as 2'-0-alkylRNA, or other HPV6/1 1 antisense oligonucleotide mimetics.
- HPV6/11 antisense molecules may be introduced into cells by microinjection, liposome encapsulation or by expression from vectors harboring the antisense sequence.
- HPV6/1 1 antisense therapy may be particularly useful for the treatment of diseases where it is beneficial to reduce HPVl 1 activity.
- the term "chemical derivative” describes a molecule that contains additional chemical moieties which are not normally a part of the base molecule.
- Such moieties may improve the solubility, half-life, absorption, etc. of the base molecule. Alternatively the moieties may attenuate undesirable side effects of the base molecule or decrease the toxicity of the base molecule. Examples of such moieties are described in a variety of texts, such as Remington's Pharmaceutical Sciences.
- compounds of the present invention may be administered in a single dose, or the total dosage may be administered in several divided doses.
- compounds for the present invention may be administered via a variety of routes including but not limited to intranasally, transdermally, by suppository, orally, and the like.
- the active agents can be administered concurrently, or they each can be administered at separately staggered times.
- the dosage regimen utilizing the compounds of the present invention is selected in accordance with a variety of factors including type, species, age, weight, sex and medical condition of the patient; the severity of the condition to be treated; the route of administration; the renal and hepatic function of the patient; and the particular compound thereof employed.
- a physician of ordinary skill can readily determine and prescribe the effective amount of the drug required to prevent, counter or arrest the progress of the condition.
- Optimal precision in achieving concentrations of drug within the range that yields efficacy without toxicity requires a regimen based on the kinetics of the drug's availability to target sites. This involves a consideration of the distribution, equilibrium, and elimination of a drug.
- the compounds herein described in detail can form the active ingredient, and may be administered in admixture with suitable pharmaceutical diluents, excipients or carriers (collectively referred to herein as "carrier” materials) suitably selected with respect to the intended form of administration, that is, oral tablets, capsules, elixirs, syrup, suppositories, gels and the like, and consistent with conventional pharmaceutical practices.
- carrier suitable pharmaceutical diluents, excipients or carriers
- the active drug component can be combined with an oral, non- toxic pharmaceutically acceptable inert carrier such as ethanol, glycerol, water and the like.
- suitable binders, lubricants, disintegrating agents and coloring agents can also be incorporated into the mixture.
- suitable binders include without limitation, starch, gelatin, natural sugars such as glucose or beta-lactose, com sweeteners, natural and synthetic gums such as acacia, tragacanth, sodium alginate, carboxymethylcellulose, polyethylene glycol, waxes and the like.
- Lubricants used in these dosage forms include, without limitation, sodium oleate, sodium stearate, magnesium stearate, sodium benzoate, sodium acetate, sodium chloride and the like.
- Disintegrators include, without limitation, starch, methyl cellulose, agar, bentonite, xanthan gum and the like.
- the active drug component can be combined in suitably flavored suspending or dispersing agents such as the synthetic and natural gums, for example, tragacanth, acacia, methyl-cellulose and the like.
- suspending or dispersing agents such as the synthetic and natural gums, for example, tragacanth, acacia, methyl-cellulose and the like.
- Other dispersing agents which may be employed include glycerin and the like.
- sterile suspensions and solutions are desired.
- Isotonic preparations which generally contain suitable preservatives are employed when intravenous administration is desired.
- Topical preparations containing the active drug component can be admixed with a variety of carrier materials well known in the art, such as, e.g., alcohols, aloe vera gel, allantoin, glycerine, vitamin A and E oils, mineral oil, PPG2 myristyl propionate, and the like, to form, e.g., alcoholic solutions, topical cleansers, cleansing creams, skin gels, skin lotions, and shampoos in cream or gel formulations.
- carrier materials well known in the art, such as, e.g., alcohols, aloe vera gel, allantoin, glycerine, vitamin A and E oils, mineral oil, PPG2 myristyl propionate, and the like, to form, e.g., alcoholic solutions, topical cleansers, cleansing creams, skin gels, skin lotions, and shampoos in cream or gel formulations.
- the compounds of the present invention can also be administered in the form of liposome delivery systems, such as small unilamellar vesicles, large unilamellar vesicles and multilamellar vesicles.
- Liposomes can be formed from a variety of phospholipids, such as cholesterol, stearylamine or phosphatidylcholines.
- Compounds of the present invention may also be delivered by the use of monoclonal antibodies as individual carriers to which the compound molecules are coupled.
- the compounds of the present invention may also be coupled with soluble polymers as targetable drug carriers.
- Such polymers can include polyvinyl-pyrrolidone, pyran copolymer, polyhydroxypropylmethacryl-amidephenol, polyhydroxy- ethylaspartamidephenol, or polyethyl-eneoxidepolylysine substituted with palmitoyl residues.
- the compounds of the present invention may be coupled to a class of biodegradable polymers useful in achieving controlled release of a drug, for example, polylactic acid, polyepsilon caprolactone, polyhydroxy butyric acid, polyorthoesters, polyacetals, polydihydro-pyrans, polycyanoacrylates and cross-linked or amphipathic block copolymers of hydrogels.
- a drug for example, polylactic acid, polyepsilon caprolactone, polyhydroxy butyric acid, polyorthoesters, polyacetals, polydihydro-pyrans, polycyanoacrylates and cross-linked or amphipathic block copolymers of hydrogels.
- the 1.5 kbp open reading frame of HPVl 1 LI was constructed using synthetic DNA oligomers ordered from Midland Reagent Company. These oligomers were supplied containing 5' terminal phosphates. A total of 24 oligomers were required and are listed below:
- Oligomers forming complementary pairs (#241-1 and #241 - 24, #241-2 and #241 -23, #241-3 and #241 -22, #241 -4 and #241 -21 , #241 - 5 and #241 -20, #241 -6 and #241-19, #241-7 and #241 -18, #241 -8 and #241 -17, #241 -9 and #241-16, #241 -10 and #241 -15, #241 -1 1 and #241 - 14, #241 -12 and #241 -13- Figure 1) were annealed in separate tubes containing 2.5 mM Tris, pH 7.5, 0.25 mM EDTA.
- Tubes were heated to 98°C for 4 min and then placed in 200 ml of 98°C water in a 250 ml beaker to cool slowly.
- the annealed pairs were added to tubes as designated: fragment A (oligomer pairs #241 -1 & 24, and -2 & 23); fragment B (#241 -3 & 22, -4 & 21 , -5 & 20, and -6 &19); fragment C (#241 -7 &18, -8 &17, -9 &16 and -10 &15) and fragment D (#241-1 1 &14 and -12 &13).
- fragment A oligomer pairs #241 -1 & 24, and -2 & 23
- fragment B (#241 -3 & 22, -4 & 21 , -5 & 20, and -6 &19)
- fragment C (#241 -7 &18, -8 &17, -9 &16 and -10 &15)
- fragment D #241-1 1 &14 and
- each tube was ligated overnight at 23°C using T4 DNA ligase (Boehringer Mannheim, Inc.) and the reagents supplied by the manufacturer. After ligation, fragment B required PCR amplification to increase the amount of full-length product. This required ten cycles of 94°C, 1 min; 48°C, 1 min; 72°C, 1 min followed by 10 min at 72°C in an Applied Biosystems thermocycler using Boehringer Mannheim Taq polymerase and the oligomer primers:
- fragment A was digested with Bgl II and Sph I; fragment B, Sph I and Kpn I; fragment C, Kpn I and Xho I; and fragment D, Xho I and Bgl ⁇ .
- the digested fragments were separated on low melting point agarose (FMC BioProducts) gels and correctly sized fragments isolated by excision of the band and digestion of the agarose using Agarase ⁇ M (Boehringer Mannheim, Inc.) as recommended by the supplier.
- the fragments A, B and D were recovered by ethanol precipitation and then separately ligated into the vector pSP72 (Promega, Inc.) that had been similarly digested with restriction enzymes to match each fragment being ligated.
- the Kpn I Xho I digested fragment C was first ligated to the annealed oligomers
- Fragment C was then recleaved with Xho I and the 450 bp Kpnl Xhol fragment was ligated with the Kpn I, Xho I-digested pSP72 vector.
- the ligation mixes were used to transform Escherichia coli strain DH5 competent cells (Gibco BRL, Gaithersburg, MD). Transformants were screened for insert-containing clones by colony hybridization (J . Sambrook et al., Molecular Cloning: A Laboratory Manual, 2nd edition, Cold Spring Harbor Laboratory Press, 1989). Plasmid DNA was isolated from the positive clones using a Wizard miniprep kit (Promega Corp.) and then sequenced using an Applied Biosystems 373A DNA Sequencer.
- Clones containing the correct DNA sequence for each of the four fragments were digested as before to release the fragments from the pSP72 vector.
- the Kpn I, Xho I-digested fragment C was ligated with the Xho I, Bgl II-digested fragment D and Kpn I, Bgl II-cut pSP72 in a three-way ligation.
- the ligation products were then used to transform E. coli. Resulting transformants were sequenced and a clone of correct sequence obtained (designated CD).
- the 750 bp Bgl II Kpn I insert of CD was recleaved from the pSP72 vector and ligated with Bgl II, Sph I -digested fragment A and Sph I, Kpn I-digested fragment B in a three- way ligation as before except Bgl II was added to decrease undesired ligation products.
- the ligation products were separated on agarose gels, the 1.5 kbp fragment was isolated, and was designated D361 - 1.
- HPV6/1 1 hybrid gene appears to be indistinguishable immunologically from native HPV 1 1.
- Comparison of the HPV6/1 1 hybrid DNA sequence to the published HPVl 1 LI sequence shows 194 base pair substitutions. There are a considerable number of substitutions relative to the wild type 1 1 LI sequence, any combination of which or all changes in total may be what is responsible for the increased type 1 1 LI protein expression in yeast.
- HPV6/1 1 LI gene was sequenced using an Applied Biosystems DNA Sequencer #373A with dye terminator sequencing reactions (PRIZMTM Sequencing Kit) as specified by the manufacturer (ABI, Inc., Foster City, CA).
- the pGALl -10 yeast expression vector was constructed by isolating a 1.4 kbp SphI fragment from a pUC18/bidirectional GAL promoter plasmid which contains the Saccharomyces ccrcvisiae divergent GAL1 -GAL10 promoters from the plasmid pBM272 (provided by Mark Johnston, Washington University, St. Louis, MO).
- the divergent promoters are flanked on each side by a copy of the yeast ADM transcriptional terminator (Bennetzen, J.L. and Hall, B.D., 1982, J. Biol. Chem.
- a yeast shuttle vector consisting of pBR322, the yeast LEU2d gene (Erhart, E. and Hollenberg, C.P., 1983, J. Bacterial. 156: 625-635) and the yeast 2w plasmid (gift of Benjamin Hall, University of Washington, Seattle, WA) (Broach, J.R. and Volkert, F.C., 1991. Circular DNA Plasmids of Yeasts. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York) was digested with Sph and ligated with the 1.4 kbp SphI divergent GAL promoter fragment resulting in pGALl- 10 ( Figure 3).
- the HPV6/1 1 hybrid LI DNA encoding the HPVl 1 LI protein contains a yeast non-translated leader sequence (Kniskern, P.J. et al., 1986, Gene 46: 135-141) immediately upstream to the HPV6/11 LI initiating methionine codon.
- the pGALl-10 plasmid was linearized with BamHI which cuts between the GAL1 promoter and the ADH1 transcription terminator and ligated with the 1.5 kbp, HPV6/1 1 LI gene fragment (sample D361-1).
- E. coli DH5 (Gibco BRL, Inc.) transformants were screened and a pGALl-10 plasmid containing the HPV6/1 1 LI gene was isolated and designated as D362-1.
- the wild-type HPVl 1 (wt-HPVl 1) DNA was cloned from a condyloma acuminatum lesion (kind gift of Dr. Darron Brown). Total human genomic DNA was extracted and digested with restriction endonucleases. The fraction containing wt-HPVl 1 DNA was ligated into an E. coli cloning vector to be used as a template for PCR.
- the wt- HPVl 1 LI gene was amplified by PCR using Vent polymerase (New England Biolabs, Inc.), 10 cycles of amplification (94°C 1 min, 48°C 1 min, 72°C 1 min 45 sec), and the following oligonucleotide primers which contain flanking Bgl II sites (underlined):
- sense primer 5 -CTC AGA TCT CAC AAA ACA AAA TGT GGC GGC CTA GCG ACA GCA CAG-3' (SEQ ID NO:29)
- antisense primer 5'-GAG AGA TCT TAC TTT TTG GTT TTG GTA CGT TTT CG-3' (SEQ ID NO:30)
- the sense primer introduces a yeast non-translated leader sequence (Kniskern, P.J. et al., 1986, Gene 46: 135-141) immediately upstream to the wt-HPVl 1 LI initiating methionine codon (highlighted in bold print).
- the 1.5 kbp wt-HPVl 1 LI PCR product was digested with Bglll, gel purified and ligated with the BamHI digested pGALl -10 plasmid to yield plasmid, p329-l .
- Total genomic DNA was extracted from an HPV6a-positive, condyloma acuminatum lesion (kind gift of Dr. Darron Brown).
- HPV6a LI gene was amplified by PCR using the biopsy sample DNA as a template, Vent polymerase (New England Biolabs, Inc.), 35 cycles of amplification (94°C 1 min, 48°C 1 min, 72°C 1 min 45 sec), the sense primer listed above for PCR of wt-HPVl 1 LI and an antisense primer with the sequence,
- the 1.5 kbp HPV6a LI PCR product was digested with Bglll, gel purified and ligated with the BamHI digested pGALl- 10 plasmid to yield plasmid D 128.
- Step a Preparation of Yeast Strain U9
- Saccharomyces cerevisiae strain 2150-2-3 (MATalpha, leu2- 04, adel, cir°) was obtained from Dr. Leland Hartwell (University of Washington, Seattle, WA). Cells of strain 2150-2-3 were propagated overnight at 30°C in 5 mL of YEHD medium (Carty et al., J. Ind Micro 2 (1987) 1 17-121 ).
- the cells were washed 3 times in sterile, distilled water, resuspended in 2 mL of sterile distilled water, and 0.1 mL of cell suspension was plated onto each of six 5-fluoro-orotic acid (FOA) plates in order to select for ura3 mutants (Cold Spring ⁇ arbor Laboratory Manual for Yeast Genetics). The plates were incubated at 30°C.
- the medium contained per 250 mL distilled water: 3.5 g, Difco Yeast Nitrogen Base without amino acids and ammonium sulfate; 0.5 g 5- Fluoro-orotic acid; 25 mg Uracil; and 10.0 g Dextrose.
- the medium was sterilized by filtration through 0.2 ⁇ m membranes and then mixed with 250 mL of 4% Bacto-Agar (Difco) maintained at 50°C, 10 mL of a 1.2 mg/mL solution of adenine, and 5 mL of L-leucine solution (180 mg/ 50 mL). The resulting medium was dispensed at 20 mL per petri dish.
- Step b Preparation of a Vector for disruption of the Yeast MNN9 gene
- PCR Polymerase Chain Reaction
- antisense primer 5'-TGA TAA GCT TGC TCA ATG GTT CTC TTC
- the initiating methionine codon for the MNN9 gene is highlighted in bold print.
- the PCR was conducted using genomic DNA from S. cerevisiae strain JRY188 as template, Taq DNA polymerase (Perkin Elmer) and 25 cycles of amplification (94°C 1 min., 37°C 2 min., 72°C 3 min.).
- the resulting 1.2 kbp PCR fragment was digested with Hindlll, gel-purified, and ligated with Hind ⁇ l-digested, alkaline- phosphatase treated pUC13 (Pharmacia).
- the resulting plasmid was designated pi 183.
- the plasmid pBR322-URA3 (which contains the 1.1 Kbp Hindlll fragment encoding the S. cerevisiae UR ⁇ 3 gene subcloned into the Hindlll site of pBR322) was digested with Hindlll and the 1.1 kbp DNA fragment bearing the functional URA3 gene was gel-purified, made blunt- ended with T4 DNA polymerase, and then ligated with Pmll-digested plasmid pi 183 (Pmll cuts within the MNN9 coding sequence).
- the resulting plasmid pi 199 contains a disruption of the MNN9 gene by the functional URA3 gene.
- Step c Construction of U9-derivative strain 1372 containing disruption of MNN9 gene
- the synthetic medium contained, per liter of distilled water: Agar, 20 g; Yeast nitrogen base w/o amino acids, 6.7 g; Adenine, 0.04 g; L-tyrosine, 0.05 g; Sorbitol, 182 g; Glucose, 20 g; and Leucine Minus Solution #2, 10 ml.
- Leucine Minus Solution #2 contains per liter of distilled water: L-arginine, 2 g; L-histidine, 1 g; L-Leucine, 6 g; L- Isoleucine, 6 g; L-lysine, 4 g; L-methionine, 1 g; L-phenylalanine, 6 g; L- threonine, 6 g; L-tryptophan, 4 g.
- Step d Construction of a Vector for Disruption of Yeast HIS3 Gene
- the plasmid YEp6 K. Struhl et al, 1979, Proc Natl. Acad. Sc , USA 76:1035
- BamHI the 1.7 kbp BamHI fragment bearing the HIS3 gene was gel-purified, made blunt-ended with T4 DNA polymerase, and ligated with pUCl 8 which had been previously digested with BamHI and treated with T4 DNA polymerase.
- the resulting plasmid (designated pi 501 or pUC18-HIS3) was digested with Nhel (which cuts in the HIS3 coding sequence), and the vector fragment was gel-purified, made blunt-ended with T4 DNA polymerase, and then treated with calf intestine alkaline phosphatase.
- the URA3 gene was isolated from the plasmid pBR322- URA3 by digestion with Hindlll and the l .l kbp fragment bearing the URA3 gene was gel-purified, made blunt-ended with T4 DNA polymerase, and ligated with the above pUC18-HIS3 Nhel fragment.
- the resulting plasmid (designated pUC18-his3::URA3 or pl505) contains a disruption cassette in which the yeast HIS3 gene is disrupted by the functional URA3 gene.
- Step e Construction of Vector for Disruption of Yeast PRB1 Gene bv the HIS3 Gene
- Plasmid FP8 ⁇ H bearing the S. cerevisiae PRB1 gene was provided by Dr. E. Jones of Carnegie-Mellon Univ. (C. M. Moehle et al., 1987, Geneticsl 15:255-263). It was digested with Hindlll plus Xhol and the 3.2 kbp DNA fragment bearing the PRB1 gene was gel-purified and made blunt-ended by treatment with T4 DNA polymerase. The plasmid pUC1 was digested with BamHI, gel-purified and made blunt-ended by treatment with T4 DNA polymerase.
- Plasmid YEp6 which contains the HIS3 gene, was digested with BamHI. The resulting 1.7 kbp BamHI fragment bearing the functional HIS gene was gel-purified and then made blunt-ended by treatment with T4 DNA polymerase. Plasmid pUC18-PRB l was digested with EcoRV plus Ncol which cut within the PRB1 coding sequence and removes the protease B active site and flanking sequence.
- the 5.7 kbp EcoRV-Ncol fragment bearing the residual 5' and 3 '-portions of the PRB1 coding sequence in pUC18 was gel-purified, made blunt-ended by treatment with T4 DNA polymerase, dephosphorylated with calf intestine alkaline phosphatase, and ligated with the blunt-ended HIS3 fragment described above.
- the resulting plasmid (designated pUC1 -prbl ::HIS3, stock #1245) contains the functional HIS3 gene in place of the portion of the PRBl gene which had been deleted above.
- Step f Construction of a U9-related Yeast Strain containing disruptions of both the MNN9 and PRBl Genes
- the U9-related strain 1372 which contains a MNN9 gene disruption was described in Example 5c.
- Clonal isolates of strain 1372 were passaged on FOA plates (as described in Example 5a) to select ura3 mutants.
- a number of ura3 isolates of strain 1372 were obtained and one particular isolate (strain 12930- 190-S1-1) was selected for subsequent disruption of the HIS3 gene.
- the pUC 18-his3::URA3 gene disruption vector (pi 505) was digested with Xbal plus EcoRI to generate a linear his3::URA3 disruption cassette and used for transformation of strain 12930- 190-S 1-1 by the lithium acetate method (Methods in Enzvmology. 194:290 (1991).
- Ura+ transformants were selected on synthetic agar medium lacking uracil, restreaked for clonal isolates on the same medium, and then replica-plated onto medium lacking either uracil or histidine to screen for those isolates that were both Ura + and His-.
- One isolate (strain 12930-230-1) was selected for subsequent disruption of the PRBl gene.
- the PRBl gene disruption vector (pUC18-prbl ::HIS3, stock #1245) was digested with Sad plus Xbal to generate a linear prbl ::HIS3 disruption cassette and used for transformation of strain 12930-230- 1 by the lithium acetate method. His + transformants were selected on agar medium lacking histidine and restreaked on the same medium for clonal isolates. Genomic DNA was prepared from a number of the resulting His+ isolates, digested with EcoRI, and then electrophoresed on 0.8% agarose gels. Southern blot analyses were then performed using a radio- labeled 617 bp probe for the PRBl gene which had been prepared by PCR using the following oligodeoxynucleotide primers:
- pGALl -10 + wt-HPVl 1 LI D128 (pGALl-10 + HPV6 LI) and pGALl -10 were used to transform S. cerevisiae strain #1558 (MATa, leu2-04, prbl ::HIS3, mnn9 : :URA3 , adel, cir°) by the spheroplast method (Hinnen et al., 1978, Proc. Natl. Acad. Sci. USA 75, 1929-1933).
- the #1558 yeast strain transformed with plasmid D362-1 was designated as strain #1782.
- yeast clonal isolates were grown at 30°C in YEH complex medium (Carty et al., 1987, J. Ind. Micro. 2, 1 17-121) containing 0.1 M sorbitol and either 2% glucose or galactose for 26 hours. After harvesting the cells, yeast RNA was extracted using the hot acidic phenol method as described (Current Protocols in Molecular Biology, vol. 2, Current Protocols, 1993). For protein analysis, the identical isolates were grown at 30°C in YEH complex medium containing 0.1 M sorbitol, 2% glucose and 2% galactose for 70 hours. After harvesting the cells, the cell pellets were broken with glass beads and cell lysates analyzed for the expression of HPVl 1 LI or HPV6 LI protein by immunoblot analysis.
- RNA samples containing 10 ⁇ g of total RNA were denatured by treatment with glyoxal and DMSO (Current Protocols in Molecular Biology, vol. 1 , Current Protocols, 1993) and electrophoresed through a phosphate-buffered, 1.2% agarose gel.
- the RNA was transferred onto a nylon membrane and detected with a 32p. ⁇ aD e o oligonucleotide that is complementary to both the HPVl 1 and HPV6 LI DNA sequences.
- the Northern blot is shown in Figure 4. No bands that correspond to the expected size for full-length HPV LI RNA were detected in the samples grown on glucose medium (lanes 1,3 and 5). This is expected since glucose represses transcription from the yeast GAL 1 promoter.
- HPV LI RNA signals In contrast, samples grown in galactose medium which induces transcription from the GAL1 promoter, show strong HPV LI RNA signals.
- the HPV6 LI was transcribed as a full-length RNA species (lane 2) while the majority of the wild-type (wt)-HPV 1 1 LI was transcribed as a truncated form (lane 4). This result suggested that a yeast transcription termination signal is located within the wt-HPV 1 1 L 1 ORF but is not present in the HPV6 LI sequence.
- the RNA transcribed from the HPV 6/1 1 hybrid gene appears to be full-length (lane 6). No HPV specific RNA is detected in the pGALl-10 control yeast sample (lane 7).
- HPV6/1 1 hybrid gene (lane 3) appears to be ⁇ 10-fold greater than the amount of LI protein expressed by either the wt-HPVl 1 gene (lane 2) or the HPV6 LI gene (lane 1).
- An ELISA was used to determine relative amounts of VLPs produced from yeast clones expressing either wt-HPVl 1 or the HPV6/1 1 hybrid. The ELISA was also used to demonstrate that a conformational epitope giving rise to strongly neutralizing antibody responses was retained on the VLPs derived from the HPV6/1 1 hybrid DNA. This conformational epitope has been defined by monoclonal antibody HI 1.B2 (Christensen et al 1990, J. Virol. 64, 5678-5681 ) which is available from Chemicon International (Temecula, CA) as Chemicon Mab8740.
- the plates were washed once with PBS/0.1 %Tween 20 before incubating the wells with 100 mcl of a 1 : 1000 dilution of the anti-HPV 1 1 virion monoclonal antibody Chemicon MAB 8740 in 1 % dried milk in TTBS for 1 hr at room temperature. Plates were washed 3 times with PBS/Tween 20 and then incubated with 100 mcl of anti-mouse IgG coupled to alkaline phosphatase (Kierkegard &Perry, Gaithersburg, MD) at a dilution of 1 : 1000 in 1 % milk + TTBS for 1 hr at room temperature.
- frozen culture vials were prepared by adding sterile glycerol to a final concentration of 17% (w/v) prior to storage at - 70°C (1 mL per cryovial).
- Inoculum for fermentation of strain 1782 was developed in the same medium (750 mL per 2-L flask) and was started by transferring the thawed contents of two frozen culture vials to the 2-L flasks and incubating at 28 °C, 250 rpm on a rotary shaker for 25 hr.
- Fermentation of strain 1782 used a Chemap 23 L fermenter with a working volume of 18 L after inoculation.
- the production medium used contained (per L): 20 g Difco yeast extract; 10 g Sheffield HySoy peptone; 20 g glucose; 20 g galactose; the medium was adjusted to pH 5.3 prior to sterilization.
- the entire contents (500 mL) of the 2-L inoculum flask was transferred to the fermenter which was incubated at 28°C, 9 L air per min, 500 rpm, 3.5 psi pressure. Agitation was increased as needed to maintain dissolved oxygen levels of greater than 40% of saturation. Progress of the fermentation was monitored by offline glucose measurements (Beckman Glucose 2 Analyzer) and online mass spectrometry (Perkin-Elmer 1200).
- Triton XI 00 ® detergent (Pierce, Rockford, IL) was added to the broken cell slurry to bring the concentration of TX 100 to 0.5%. The slurry was stirred for 20 hours. The Triton XlOO-treated lysate was centrifuged at 12,000 x g for 40 min to remove cellular debris. The supernatant liquid containing LI protein was recovered. The supernatant liquid was diafiltered against five volumes of 20 mM sodium phosphate, pH 7.2, 0.5 M NaCl using a 300K tangential flow membrane cassette (Filtron, Northborough, MA). The material retained by the membrane was shown by radioimmunoassay and westem blotting to contain the LI protein.
- the retentate was applied to a high resolution affinity column (1 1.0 cm ID x 5.3 cm) of SP Spherodex (M) ® resin (IBF, Villeneuve-la-Garenne, France) equilibrated in 20 mM sodium phosphate, pH 7.2, 0.5 M NaCl. Following a wash with equilibration buffer and a step wash with 20 mM sodium phosphate, pH 7.2, 1.0 M NaCl, the LI protein was eluted with a step wash of 20 mM sodium phosphate, pH 7.2, 2.5 M NaCl. Fractions were collected during the washes and elution. Column fractions were assayed for total protein by the Bradford method. Fractions were then analyzed by western blotting and SDS-PAGE with colloidal Coomassie detection. Fractions were also analyzed by radioimmunoassay.
- Total protein was assayed using a commercially available Coomassie Plus ® kit (Pierce, Rockford, IL). Samples were diluted to appropriate levels in Milli-Q-H2 ⁇ . Volumes required were 0.1 mL and 1.0 mL for the standard and microassay protocols, respectively. For both protocols, BSA (Pierce, Rockford, IL) was used to generate the standard curve. Assay was performed according to manufacturer's recommendations. Standard curves were plotted using CricketGraph® software on a Macintosh Ilci computer.
- Membranes were washed with Milli-Q- H20 and air-dried.
- Primary antibody was polyclonal rabbit antiserum raised against a TrpE-HPVl 1 L1 fusion protein (gift of Dr. D. Brown).
- the antibody solution was prepared by dilution of antiserum in blotting buffer (5% non-fat milk in 6.25 mM Na phosphate, pH 7.2, 150 mM NaCl, 0.02% NaN3). Incubation was for at least 1 hour at 20-23°C. The blot was washed for 1 min each in three changes of PBS (6.25 mM Na phosphate, pH 7.2, 150 mM NaCl).
- Secondary antibody solution was prepared by diluting goat anti-rabbit IgG alkaline phosphatase-linked conjugate antiserum (Pierce, Rockford, IL) in blotting buffer. Incubation proceeded under the same conditions for at least 1 hour. Blots were washed as before and detected using a 1 step NBT/BCIP substrate (Pierce, Rockford, IL).
- Purified VLP's are formulated according to known methods, such as by the admixture of pharmaceutically acceptable carriers, stabilizers, or a vaccine adjuvant.
- the immunogenic VLP's of the present invention may be prepared for vaccine use by combining with a physiologically acceptable composition such as, e.g. PBS, saline or distilled water.
- the immunogenic VLP's are administered in a dosage range of about 0.1 to 100 meg, preferably about 1 to about 20 meg, in order to obtain the desired immunogenic effect.
- the amount of VLP per formulation may vary according to a variety of factors, including but not limited to the individual's condition, weight, age and sex.
- VLP formulations may be by a variety of routes, including but not limited to oral, subcutaneous, topical, mucosal and intramuscular.
- Such VLP formulations may be comprised of a single type of VLP (i.e., VLP from HPVl 1 ) or a mixture of VLP's (i.e, VLP's from HPV6, HPV 1 1 , HPV 16 and HPV18).
- An antimicrobial preservative e.g. thimerosal
- the immunogenic antigens of the present invention may be employed, if desired, in combination with vaccine stabilizers and vaccine adjuvants.
- Typical stabilizers are specific compounds, e.g. polyanions such as heparin, inositol hexasulfate, sulfated beta- cyclodextrin, less specific excipients, e.g. amino acids, sorbitol, mannitol, xylitol, glycerol, sucrose, dextrose, trehalose, and variations in solution conditions, e.g. neutral pH, high ionic strength (ca. 0.5-2.0 M salts), divalent cations (Ca2+, Mg2+).
- adjuvants are Al(OH)3 and Al(P ⁇ 4).
- the vaccine of the present invention may be stored under refrigeration or in lyophilized form.
- kits include a compartmentalized carrier suitable to hold in close confinement at least one container.
- the carrier would further comprise reagents such as the anti-VLP antibody or the VLP suitable for detecting HPV or fragments of HPV or antibodies to HPV.
- the carrier may also contain means for detection such as labeled antigen or enzyme substrates or the like.
- the antibodies or VLP or kits are useful for a variety of purposes, including but not limited to forensic analyses and epidemiological studies.
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Priority Applications (15)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE69629556T DE69629556T2 (en) | 1995-03-30 | 1996-03-26 | SYNTHETIC, HPV6 / 11 HYBRID L1 DNA ENCODING HUMAN PAPILLOMAVIRUS TYPE 11 L1 PROTEIN |
SK1293-97A SK283998B6 (en) | 1995-03-30 | 1996-03-26 | Synthetic HPV6/11 hybrid L1 DNA encoding human papillomavirus type 11 L1 protein |
AU55277/96A AU708111B2 (en) | 1995-03-30 | 1996-03-26 | Synthetic HPV6/11 hybrid L1 DNA encoding human papillomavirus type 11 L1 protein |
AT96912467T ATE247712T1 (en) | 1995-03-30 | 1996-03-26 | SYNTHETIC HPV6/11 HYBRID L1 DNA CODING HUMAN PAPILLOMAVIRUS TYPE 11 L1 PROTEIN |
EA199700281A EA000969B1 (en) | 1995-03-30 | 1996-03-26 | Isolated dna sequence, expression vector of dna sequence and process for production virus-like particles |
CA002216827A CA2216827C (en) | 1995-03-30 | 1996-03-26 | Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein |
DK96912467T DK0817852T3 (en) | 1995-03-30 | 1996-03-26 | Synthetic HPV6 / 11 hybrid L1 DNA encoding human papillomavirus type 11 L1 protein |
NZ306663A NZ306663A (en) | 1995-03-30 | 1996-03-26 | Synthetic hpv6/11 hybrid l1 dna encoding human papilloma virus type 11 l1 protein |
MX9707457A MX9707457A (en) | 1995-03-30 | 1996-03-26 | Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein. |
EP96912467A EP0817852B1 (en) | 1995-03-30 | 1996-03-26 | Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein |
US08/913,462 US6159729A (en) | 1995-03-30 | 1996-03-26 | Synthetic HPV6/11 hybrid L1 DNA encoding human papillomavirus type 11 L1 protein |
JP52959696A JP3918877B2 (en) | 1995-03-30 | 1996-03-26 | Synthetic HPV6 / 11 hybrid L1 DNA encoding human papillomavirus type 11 L1 protein |
PL96322588A PL183299B1 (en) | 1995-03-30 | 1996-03-26 | Synthetic hybrid dna l1 hpv6/11 encoding l1 protein of human pailloma virus type 11 |
HU9801608A HU228490B1 (en) | 1995-03-30 | 1996-03-26 | Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein |
NO19974514A NO320086B1 (en) | 1995-03-30 | 1997-09-29 | Nucleic acid molecule encoding human papillomavirus type 11 L1 protein, expression vector comprising the nucleic acid molecule, preparation comprising the nucleic acid molecule and its use for the preparation of drug. |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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US41357295A | 1995-03-30 | 1995-03-30 | |
US41357195A | 1995-03-30 | 1995-03-30 | |
US08/413,572 | 1995-03-30 | ||
US08/413,571 | 1995-03-30 |
Publications (2)
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WO1996030520A2 true WO1996030520A2 (en) | 1996-10-03 |
WO1996030520A3 WO1996030520A3 (en) | 1996-11-07 |
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Family Applications (1)
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PCT/US1996/004117 WO1996030520A2 (en) | 1995-03-30 | 1996-03-26 | Synthetic hpv6/11 hybrid l1 dna encoding human papillomavirus type 11 l1 protein |
Country Status (21)
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US (1) | US6159729A (en) |
EP (1) | EP0817852B1 (en) |
JP (1) | JP3918877B2 (en) |
KR (1) | KR100441477B1 (en) |
CN (1) | CN1154732C (en) |
AT (1) | ATE247712T1 (en) |
AU (1) | AU708111B2 (en) |
CZ (1) | CZ291375B6 (en) |
DE (1) | DE69629556T2 (en) |
DK (1) | DK0817852T3 (en) |
EA (1) | EA000969B1 (en) |
ES (1) | ES2203691T3 (en) |
HU (1) | HU228490B1 (en) |
IL (1) | IL117591A0 (en) |
NO (1) | NO320086B1 (en) |
NZ (1) | NZ306663A (en) |
PL (1) | PL183299B1 (en) |
PT (1) | PT817852E (en) |
SK (1) | SK283998B6 (en) |
WO (1) | WO1996030520A2 (en) |
ZA (1) | ZA962526B (en) |
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WO1998044944A2 (en) * | 1997-04-08 | 1998-10-15 | Merck & Co., Inc. | Stabilized human papillomavirus formulations |
WO2000014112A2 (en) * | 1998-09-03 | 2000-03-16 | Deutsches Krebsforschungszentrum Stiftung des öffentlichen Rechts | Papillomaviruses, means for the detection thereof and therapy for diseases caused thereby |
WO2000035478A1 (en) * | 1998-12-11 | 2000-06-22 | The University Of Queensland | Treatment of papillomavirus infections |
US6251678B1 (en) | 1999-02-05 | 2001-06-26 | Merck & Co., Inc. | Human papillomavirus vaccine formulations |
US6251406B1 (en) | 1996-10-09 | 2001-06-26 | Btg International Limited | Attenuated microorganism strains and their uses |
US6380364B1 (en) | 1998-11-23 | 2002-04-30 | Loyola University Of Chicago | Chimeric biotin-binding papillomavirus protein |
US6602697B1 (en) * | 1998-08-14 | 2003-08-05 | Merck & Co., Inc. | Process for purifying human papillomavirus virus-like particles |
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US10513541B2 (en) | 2015-12-04 | 2019-12-24 | Xiamen University | Mutant of L1 protein of human papillomavirus type 11 |
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- 1996-03-21 IL IL11759196A patent/IL117591A0/en not_active IP Right Cessation
- 1996-03-26 KR KR1019970706796A patent/KR100441477B1/en not_active IP Right Cessation
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- 1996-03-26 DK DK96912467T patent/DK0817852T3/en active
- 1996-03-26 AT AT96912467T patent/ATE247712T1/en active
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EP0782615A1 (en) * | 1994-09-22 | 1997-07-09 | Merck & Co. Inc. | Dna encoding human papillomavirus type 6a |
EP0782615A4 (en) * | 1994-09-22 | 2001-08-22 | Merck & Co Inc | Dna encoding human papillomavirus type 6a |
US6251406B1 (en) | 1996-10-09 | 2001-06-26 | Btg International Limited | Attenuated microorganism strains and their uses |
US6458368B1 (en) | 1996-10-09 | 2002-10-01 | Btg International Limited | Attenuated microorganism strains expressing HPV proteins |
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WO1998044944A3 (en) * | 1997-04-08 | 1998-12-30 | Merck & Co Inc | Stabilized human papillomavirus formulations |
US6602697B1 (en) * | 1998-08-14 | 2003-08-05 | Merck & Co., Inc. | Process for purifying human papillomavirus virus-like particles |
WO2000014112A3 (en) * | 1998-09-03 | 2000-11-09 | Deutsches Krebsforsch | Papillomaviruses, means for the detection thereof and therapy for diseases caused thereby |
US6589532B1 (en) | 1998-09-03 | 2003-07-08 | Krebsforschungszentrum Stiftung Des Offentlichen Rechts | Papilloma viruses, means for the detection thereof and therapy for diseases caused thereby |
WO2000014112A2 (en) * | 1998-09-03 | 2000-03-16 | Deutsches Krebsforschungszentrum Stiftung des öffentlichen Rechts | Papillomaviruses, means for the detection thereof and therapy for diseases caused thereby |
US6380364B1 (en) | 1998-11-23 | 2002-04-30 | Loyola University Of Chicago | Chimeric biotin-binding papillomavirus protein |
WO2000035478A1 (en) * | 1998-12-11 | 2000-06-22 | The University Of Queensland | Treatment of papillomavirus infections |
US6867033B1 (en) | 1998-12-11 | 2005-03-15 | The University Of Queensland Of St. Lucia | Treatment of papillomavirus infections |
US7172870B2 (en) | 1998-12-11 | 2007-02-06 | The University Of Queensland Of St. Lucia | Treatment of papillomavirus infections |
US6251678B1 (en) | 1999-02-05 | 2001-06-26 | Merck & Co., Inc. | Human papillomavirus vaccine formulations |
EP1806410A2 (en) * | 2001-08-23 | 2007-07-11 | Merck & Co., Inc. | Fluorescent multiplex HPV PCR assays using multiple fluorophores |
EP1806410A3 (en) * | 2001-08-23 | 2007-10-24 | Merck & Co., Inc. | Fluorescent multiplex HPV PCR assays using multiple fluorophores |
US10513541B2 (en) | 2015-12-04 | 2019-12-24 | Xiamen University | Mutant of L1 protein of human papillomavirus type 11 |
US12097251B2 (en) | 2018-09-26 | 2024-09-24 | Xiamen University | Human papilloma virus type 51 L1 protein mutants |
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