DE4217679C2 - Cyclic guanosine 3 ', 5'-phosphorothioate derivatives - Google Patents

Description

The invention relates to novel S _P and R _P -configured cyclic guanosine-3 ', 5'-phosphorothioate derivatives and physiologically acceptable salts of these compounds.

The central role of the cyclic adenosine 3 ', 5'-monophosphate (cAMP) as a cellular messenger (second messenger) since its discovery by Sutherland (Ann. Rev. Biochem. 149 (1968)) meanwhile in countless biochemical processes been confirmed.

The corresponding guanosine 3 ', 5'-monophosphate (cGMP) also regulates obviously many cell biological processes, such. B. the Relaxation of contracted aortic muscles and inhibition of Platelet function (U.Walter, Rev. Physiol. Biochem col. 113, 42-88 (1989)). It can both parallel the cAMP Si gnalweg support as well as an opposite effect solve and thus act as a counter-regulator.  

cAMP and cGMP are usually after external hormonal Sti formed by intracellular cyclases from ATP or GTP and bind in the course of signaling to each for them specific protein kinases, which in turn then further proteins activate or activate by phosphorylation and thus ultimately trigger a biological effect.

Various cyclonucleotide-dependent phosphodiesterases provide for the degradation of cAMP and cGMP (J.A. Beavo, Second Mes Senger and Phosphoprotein Res. 22, 1-38 (1988)) and switch so a triggered signal again.

The fact that many diseases in the human with a unnaturally high or low levels of cAMP or cGMP It has led to numerous attempts, the intracellular Signal transmission of this "second messenger" to impress influence.

Too low a level of cAMP or cGMP may be due to inhibition the cyclonucleotide-dependent phosphodiesterases compensated (Nicholson et al., TIBS 12, 19-27 (1991)). To this Way the degradation of cAMP or cGMP is prevented, so that the Concentration of these substances in the cell by accumulation increases. By administration of membrane permeable cAMP and cGMP derivatives, such as 8-bromo-cAMP / cGMP or 8- (4-chlorophenylthio) -cAMP / cGMP, can directly activate the respective protein kinases and so on to low cyclonucleotide level. Such modified derivatives can also characterize specificity of kinases (Wolfe et al. J. Biol. Chem. 264, 7734-7741 (1989), Geiger et al., Proc. Natl. Acad. Sci. USA 89, 1031-1035 (1992)). An increase in intra Cellular cAMP or cGMP concentration can also be through Achieve stimulation of the corresponding cyclases (forskolin, Cholera toxin, nitroprusside and the like a.).  

Both in the basic research of cellular processes, as well with regard to potential pharmacological use is but also the possibility of lowering or even a complete blockade of the cAMP or cGMP signaling pathway is of great importance tung.

As inhibitors of protein kinases have been hitherto in addition to some unspecific acting isoquinoline derivatives (Chÿawa et al., J. Biol. Chem. 265, 5267 (1990)) and an inhibitor of protein ba sis (Walsh et al., J. Biol. Chem. 246, 1977 (1971)) mainly R _P - configured derivatives of adenosine 3 ', 5'-monophosphorothioats (R _P -cAMPS) used. It acts as a cAMP antagonist and inhibitor of type I and II cAMP-dependent protein kinases (cAK I & II) (Botelho et al., Methods Enzymol., 159, 159 (1988)). Other diastereomeric cAMP derivatives of R _P configuration have been previously reported (Dostmann et al., J. Biol. Chem. 265, 10484 (1990)) and are currently being investigated for their biological properties.

Since it has been shown in the case of the cAMPS derivatives that not all R _P diastereomers are inhibitors of the cyclonucleotide-dependent protein kinases, but can certainly also have an agonistic action (Sandberg et al., Biochem J. 279, 521-527 ( 1991)), and since most of the 20 R _P isomers studied so far represent only partial antagonists and more agonists of the cAK, there is currently no structural criterion for a reliable prediction of whether an R _P -configured adenosine -3 ', 5'-phosphorothioate derivative may or may not completely inhibit cAK I and II, respectively.

In contrast to the cAMPS derivatives, only two sulfur-modified compounds of cGMP with inhibitory properties have so far been described: R _P -Guanosine 3 ', 5'-monophosphorothioate (R _P -cGMPS) and R _P -8-chloroguanosine-3', 5 'Monophosphorothioate (R _P -8-Cl-cGMPS) (Butt et al., FEBS Lett. 263, 47 (1990)).

The potential use of these substances as inhibitors of the cGK signaling path, however, entails serious disadvantages. So z. B. for R _P -cGMPS the required kinase Selec activity not given. Furthermore, the lipophilicity, which is crucial for the penetration of the cell membrane, is quite low in both cases, although the modification with sulfur brings on average a doubling of the lipophilicity (Braumann et al., J. Chromatogr. 350, 105-118 (1985)).

It was therefore the task of finding new cGMPS derivatives, the a higher lipophilicity and thus a better cell membrane Per possessing selectively the cGMP-dependent proteinki inhibit nasal commas and which also has sufficient chemi physical, physical and metabolic stability.

To solve this problem, the compounds described in claim 1 are proposed. It has surprisingly been found that the above listed requirements for particularly advantageous inhibitors of the cGMP-dependent protein kinase are fulfilled by the R _P -configured cGMPS derivatives according to the invention. It is particularly surprising that even modifications which can unambiguously stimulate the cAMP-dependent protein kinases in the form of the corresponding R _P -cAMPS derivatives inhibit the cGK kinase as R _P cGMPS analogues. The high selectivity of the compounds according to the invention is also particularly advantageous. Inhibitory or activating effects on the corresponding cAKs are only apparent at much higher concentrations than are required at the cGK. The S _p -configured cGMPS derivatives according to the invention are suitable as activators of cGMP-dependent protein kinases.

The substances found combine a number of properties that make their intensive use in cellular signal transduction research possible and allow both a use as a therapeutic in over-functioning of the cGMP system as well as a pharmacologically meaningful blockade of cGMP levels that are in themselves normal. In addition, the compounds according to the invention are suitable as modulators, ie as inhibitors (R _P -configured derivatives) or activators (S _P -configured derivatives), cGMP-dependent ion channels, cyclonucleotide-dependent phosphodiesterases or other cGMP-dependent binding proteins. The sulfur modification is known to ensure complete stability to all known cyclonucleotide degrading phosphodiesterases in mammals, including humans, in all R _P -configured compounds; in the S _P -configured compound, the sulfur modification leads to a strong delay in the enzymatic degradation.

In comparison to known nucleoside cyclophosphates, the compounds according to the invention have an increased lipophilicity and thus improved membrane permeability. Substitu tion with sulfur on the phosphate radical in the axial position (S _P -D stereomers) leads to kinase activating compounds, an equatorial position of sulfur, however, to cGK antagonists (R _P diastereomers).

R¹ and R² are each hydrogen and X is the 4-chlorophenylthio radical.  

Furthermore, compounds of the formula II with R _P configuration on the phosphate radical show antagonistic properties.

In this case, X, -Br.  

Kat⁺ may be a proton, a physiologically acceptable metal cation or a trialkylammonium ion. Preferred metal cations are Na⁺, K⁺, Li⁺, Ca ²⁺ and Mg ²⁺ .

To membrane permeability of the compounds of the invention yet further increase, it may be advantageous to the 2'-hydroxyl group of the pentose residue and / or the phosphate moiety with hydrophobic group to derivatize by intracellular enzymes, hydroly table or by the irradiation with light of a certain Wavelength in the visible or ultraviolet range after Penetration of the cell membrane can be eliminated.

As enzymatically cleavable protecting groups for the 2'-hydroxyl For example, esters of linear or branched carbon are suitable short or medium chain length (C₁-C₈) acids for which Phosphate esters are esters with linear or branched C₁-C₈- Alcohols with primary, secondary or tertiary hydroxyl group pe, with benzyl alcohol or the derivatization with the acetox ymethyl group into consideration.

As an example of both the 2'-hydroxyl group and the Phosphate group hydrolytically removable groups are silyl group called pen. Particularly suitable are trialkylsilyl groups, in particular trialkylsilyl groups with straight-chain or ver  branched C₁-C₅-alkyl radicals. Especially suitable is the Trimethylsilyl group.

Suitable light-cleavable groups are suitable for the phosphate radical z. As the 1- (2-nitrophenyl) ethyl or 4,5-dimethoxy-2-ni trobenzyl group, for derivatization of the 2'-OH group is suitable especially the butyryl group.

The derivatization of the phosphate group can be both oxygen as well as on the sulfur atom, preferably those on the acid substance derivatized compounds. In addition, Gemi be used from oxygen and sulfur derivatives.

It may also be useful Ver derivatize bonds with fluorescent groups to give them to locate in the cell or sensitive quan in connection with phosphodiesterases J. Grewal et al., Biochemistry International, 19, 1287 (1989)).

As a fluorescent marker, for example, is a derivative tion of the 2'-hydroxyl group with the anthraniloyl or N-Me thylanthraniloyl radical.

The use of the compounds according to the invention as medicaments is preferably in combination with pharmacologically usual Carriers and / or diluents and / or adjuvants z. As ointments, powders, tablets, capsules, drops, Supposito rien, infusion or injection solutions. Indications of such Medicines are z. B. thrombosis, asthma, hypertension, arteriosis klerose.

Because of their specific binding capacity and their hydroly Resistance are the compounds of the invention are suitable for Production of stationary phases for the liquid chroma tography, in particular for affinity chromatography,  For example, cyclonucleotide-dependent binding proteins. here at, the compounds become via the terminal reactive group, the halogens, insoluble polyme tied back. The reactive groups are either direct (X = halogen) or via molecular spacers (spacer) bound to the heterocycle.

Preference is given to spacers of the structure X = -NHR⁵, where R⁵ a linear alkyl, polyethylene glycol, polyethyleneimine or Polypeptide residue having a terminal reactive group. Particularly preferred are spacers with a length of 2 to 12 atoms or from 1 to 5 amino acids in the case of the polypeptides. As terminal, reactive groups are amino groups and esp especially primary amino groups are preferred.

Suitable insoluble polymeric matrix are silica gel, glass, Silicone polymers, polyacrylamide, polystyrene, agarose, such as. B. Sepharose®, cellulose or dextran, such as. Sephadex®. Prefers are carrier materials that already contain spacers and the Therefore, especially for binding the derivatives without spacer eig NEN. These include in particular commercially for the coupling of Affinity ligands offered ethylene glycol-methacrylic acid copo polymers, such as. As Fraktogel TSK®, CNBr- or epoxy-activated Sepharose® or Sephadex® or derivatized porous glass beads (CPG). Preferably, the stationary invention Phases in ready to use form, d. H. in the form of carrier material alien with attached ligands offered.

The synthesis of the new compounds takes place in a manner known per se Either by cyclothiophosphorylation of the corresponding modified nucleosides in trialkyl phosphates with PSCl₃ (Genie ser et al., Tetrahedron Lett. 29, 2803 (1988); WO 89/07108; DE- OS 38 02 685) by exchanging halogen already preformier th, 8-halogenated guanosine-3 ', 5'-phosphorothioaten with the corresponding nucleophiles (Miller et al., Biochemistry 12, 5310-5319 (1973)) or by reaction of preformed guano  sin-3 ', 5'-phosphorothioates with 2-bromoacetophenone (Miller et al., Biochem. Pharmacol. 30, 509-515 (1981)).

The derivatization of the 2'-hydroxyl and the phosphate group of Compounds according to the invention are carried out according to standard methods. The 2'-hydroxyl group can be, for example, by reaction with Carboxylic acid chlorides or anthraniloyl chlorides and pyridine esterify, the esterification of the phosphate radical takes place z. B. by Reaction with diazo compounds (J. Engels, Bioorg. Chem., 8, 9-16 (1979)).

Silyl protecting groups are obtained, for example, by reaction of Phosphorothioates with trialkylsilyl chlorides and pyridine Gaffney et al., J. Am. Chem. Soc., 104, 1316-1319 (1982)).

Derivatization of the phosphate moiety with photolabile groups (cage compounds) are formed by reaction of the cyclothiophosphates with corresponding diazo compounds (McCray et al., Annu. Rev. Biophys. Biophys. Chem., 18, 239 (1986)).

The immobilization of the derivatives for the affinity chromatography phie to coupling support materials under training hy drolytically stable bonds take place in a known manner. In the The rule here is the affinity of the invention to be bound ligand with the suspended in buffer carrier material at room temperature or a higher temperature.

The lipophilicity of the compounds according to the invention is determined in a manner known per se with the aid of reversed-phase high-pressure liquid chromatography as Log K _w , value which is approximately comparable to the Log P value (Braumann et al., J. Chromatogr , 350, 105-118 (1985)). The Log K _w value for the parent cGMP is 0.85.

Isolation of cGMP-dependent protein kinase type I from Rin derlunge and cAMP-dependent protein kinase type II from Rin derherz takes place in a manner known per se (Walter et al., J. Biol. Chem. 255, 3757-3762 (1980)). Measurement of protein kinase se activity is determined by the method of Roskoski (Methods Enzy mol. 99, 3-6 (1983)). The in vitro measurements on human platelet membranes are in a conventional manner (Halbrügge et al., Eur. J. Biochem. 185, 41-50, (1989)).

cGK antagonists inhibit the cGMP dependence depending on the concentration ge phosphorylation of a 46/50 kDa band, but not the cAMP-specific phosphorylation of the 22 kDa and 240 kDa bands. Particularly well membrane permeable compounds are in vivo intact human platelets in a conventional manner (Hal Bruegge et al., J. Biol. Chem. 265, 3088-3093 (1990)).

The invention will be explained below with reference to examples.

reference example Cyclic 8-bromoguanosine 3 ', 5'-monophosphorothioate, R _P and S _P diastereomer (R _P - / S _P -8-Br-cGMPS)

The synthesis of the compounds is carried out in a conventional manner by cyclothiophosphorylation of 8-bromoguanosine in trialkyl phosphates with PSCl₃ (Genieser et al., Tetrahedron Lett. 29, 2803 (1988); WO 89/07108; DE-OS 38 02 685). In addition to the target compounds, the reaction mixture contains, inter alia, the R _P and S _P diastereomers chlorinated in position 8 (R _P - / S _P -8-Cl-cGMPS). Chromatography on Rp-18 reversed phase silica gel (eluent: 10% methanol / 100 mM triethylammonium formate buffer) and lyophilization of the product-containing fractions gives mixtures of R _P -8-Br / Cl-cGMPS and S _P -8-Br / Cl-cGMPS, which are each separated by renewed preparative chromatography on Rp-18 silica gel (mobile phase: 7% or 8% methanol / 100 mM triethylammonium formate buffer). The diastereomers of 8-Br-cGMPS obtained by combining and lyophilizing product-containing fractions are further purified, if appropriate, by repeated chromatography under the same conditions. R _P -8-Br-cGMPS contains no detectable traces of the kinase-active S _P diastereomers S _P -8-Cl / Br-cGMPS and less than 0.05% of the normal cyclophosphate 8-Cl / Br-cGMP. The purity is <98%. Yield: 6% of theory, as the triethylammonium salt. S _P -8-Br-cGMPS contains no detectable traces of the corresponding R _P diastereomers. The purity is <98%. Yield: 5% of theory, as triethylammonium salt.

Molecular Formula: C₁₀H₁₁O₆N₅SPBr (MW: 440.12, free acid), UV (H₂O): λ _max = 260 nm (ε = 15,000 at pH 7) FAB-MS (glycerol):

R _P -8-Br-cGMPS S _P -8-Br-cGMPS

Negative mode
m / z = 228/230 (20%: base -H) ⁻ m / z = 228/230 (10%: base -H) ⁻
m / z = 360 (30%: M-Br-H) ⁻ m / z = 360 (20%: M-Br-H) ⁻
m / z = 438/440 (60%: MH) ⁻ m / z = 438/440 (35%: MH) ⁻

Positive mode
m / z = 440/442 (1%: M + M) ⁺ m / z = 440/442 (1%: M + H) ⁺
1 H-NMR (DMSO-d₈ / TMS):
R _P -8-Br-cGMPS: δ = 5.97 ppm (s: H1 ') S _P -8-Br-cGMPS: δ = 5.98 ppm (s: H1')
31 P-NMR (MeOH / H₃PO₄):
R _P -8-Br-cGMPS: δ = 58.5 ppm S _P -8-Br-cGMPS: δ = 56.3 ppm

Lipophilic determination:
R _P -8-Br-cGMPS: Log K _w = 1.31 S _P -8-Br-cGMPS: Log K _w = 1.39.

Biological measurements

R _P -8-Br-cGMPS proves to be an antagonist of the cGK with an inhibition constant of K _i = 4 μM.

On cAMP-dependent protein kinase II, the compound shows partial agonistic properties only at high concentrations (K _a = 60 μM).

R _P -8-Br-cGMPS inhibits the phosphorylation of a 46/50 kDa band in human platelet membranes.

The cAMP-dependent phosphorylation of the 22 and 240 kDa bands, respectively is not affected.

S _P -8-Br-cGMPS is a slightly lower activator of cGK than cGMP and can also activate cAK II at a similar concentration.

example 1 Cyclic 8- (4-chlorophenylthio) guanosine 3 ', 5'-monophosphoroethioate R _P diastereomer (R _P -8-pCPT-cGMPS)

The synthesis of the compound is carried out either by substitution of the 8-position halogenated cGMPS derivative (R _P -8-chloro / bromo cGMPS) with 4-chlorothiophenol (Miller et al., Biochemistry 12, 5310-5319 (1973)) or by Cyclothiophosphorylation of 8- (4-chlorophenylthio) guanosine obtained by substitution of 8-bromoguanosine with 4-chlorothiophenol (Genieser et al., Tetrahedron Lett. 29, 2803 (1988)). Preparative chromatography on Rp-18 Re versed phase silica gel (eluent: 30% methanol / 100 mM triethyl ammonium formate buffer) and lyophilization of the combined product-containing fractions gives the product, which is optionally further purified by rechromatography under the same conditions. Yield: 62% of theory (substitution) or 5% of theory (cyclothiophosphorylation), (in each case as triethylammonium salt, purity: <98% (HPLC)). The product contains no detectable traces of kinase-active S _P -diastereo mers S _P -8-pCPT-cGMPS and less than 0.05% 8-pCPT-cGMP.

Molecular formula: C₁₆H₁₅O₆N₅S₂PCl (MW: 503.9, free acid) UV: (H₂O): λ _max = 276 nm (ε = 21,500 at pH 7). FAB-MS (glycerol): @ Negative mode m / z = 292 (10%: base -H) ⁻ m / z = 502 (55%: M-H) ⁻ m / z = 594 (35%: M-H + Gly) ⁻ Positive mode m / z = 294 (30%: B + H) ⁺ m / z = 504 (15%: M + H) ⁺ m / z = 526 (20%: M + Na) ⁺ m / z = 548 (20%: M + 2Na) ⁺ 1 H-NMR (DMSO-d₆ / TMS): δ = 5.85 ppm (s: H1 ') 31 P-NMR (MeOH / H₃PO₄): δ = 58.4 ppm.

Biological properties

R _P -8-pCPT-cGMPS proves to be an antagonist of cGK with an inhibition constant of K _i = 0.7 μM; on cAMP-dependent kinase, the compound shows weak agonistic properties (400 μM) only at high concentrations.

R _P -8-pCPT-cGMPS inhibits the phosphorylation of a 46/50 kDa band in human platelet membranes, the cAMP-dependent phosphorylation of the 22 and 240 kDa bands is not affected.

The compound is sufficiently membranous and inhibits the cGK Phosphorylation in intact human platelets.  

Example 2 (Submitted, received on 30.6.97) Cyclic 8- (4-chlorophenylthio) guanosine 3 ', 5'-monophosphorothioate, R _P - / S _P - diastereomer (R _P - / S _P -8-pCPT-CGMPS)

The synthesis of the compound is carried out either by substitution of the 8-position halogenated cGMPS derivative (R _P -8-Cl / Br cGMPS) with 4-chlorothiophenol (Miller et al., Biochemistry 12, 5310-5319 (1973)) or by Cyclothiophosphorylation of 8- (4-chlorophenylthio) -guanosine obtained by substitution of 8-bromoguanosine with 4-chlorothiophenol (Genieser et al., Te trahedron Lett., 29, 2803 (1988)). Preparative chromatography on Rp-18 reversed phase silica gel (eluent: 30% methanol / 100 mM triethylammonium formate buffer) and lyophilization of the combined product-containing fractions gives the two diaste monomeric products, which are optionally further purified by re Chromatogra phie under the same conditions. Yield: 62% of theory (substitution) or 5% of theory (cyclothiophosphorylation) for both isomers (each as triethylammonium salt, purity 98% (HPLC)). R _P -8-pCPT-cGMPS contains no detectable traces of kinase-active S _P -diastereo mers S _P -8-pCPT-cGMPS and less than 0.05% 8-pCPT-cGMP. S _P -8-pCPT-cGMPS contains no detectable traces of R _P -diastereo mers R _P -8-pCPT-cGMPS and less than 0.05% of 8-pCPT-cGMP.

Molecular formula: C₁₆H₁₅O₆N₅S₂PCl (MW: 503.9, free acid) UV: (H₂O): λ _max = 276 nm (ε = 21,500 at pH 7). FAB-MS (Na salt in glycerol): @ R _P -8-pCPT-cGMPS S _P -8-pCPT-cGMPS Negative mode @ m / z = 292 (10%: base H) ⁻ m / z = 292 (10%: base H⁻) m / z = 502 (55%: M-H) ⁻ m / z = 502 (30%: M-H⁻) m / z = 594 (35%: M-2H + Gly) ⁻ m / z = 524 (10%: M-2H + Na) ⁻ Positive mode @ m / z = 294 (30%: B + H) ⁺ m / z = 504 (1%: M + H) ⁺ m / z = 504 (15%: M + H) ⁺ @ m / z = 526 (20%: M + Na) ⁺ @ m / z = 548 (20%: M + 2Na) ⁺  @ 1 H-NNR (DMSO-D₆ / TMS): @ R _P -8-pCPT-GMPS: δ = 5.85 ppm (s: H1 ') S _P -8-pCPT-cGMPS: δ = 5.89 ppm (s: H1 ') 31 P-NMR (NeOH / H₃PO₄): @ R _P -8-pCPT-cGMPS: δ = 58.4 ppm S _P -8-pCPT-cGMPS: δ = 56.5 ppm Lipophilicity determination: @ R _P -8-pCPT-cGMPS: Log K _w = 2.82 S _P -8-pCPT-cGMPS: Log K _w = 2.84.

Biological properties

R _P -8-pCPT-cGMPS proves to be a cPK inhibitory inhibitor with an inhibition constant K ⁱ of 0.7 μM; the cAMP-dependent kinase shows weak agonistic properties only at high concentrations (400 μM). Rp-8-pCPT-cGMPS inhibits the phosphorylation of a 46/50 kDa band in human platelet membranes, the cAMP-dependent phosphorylation of the 22 and 240 kDa bands is not affected. The compound is sufficiently membranous and inhibits cGK phosphorylation in intact human platelets. Sp-8-pCPT-cGMPS is sufficiently membrane-permeable and an activator for both isolated cGK and cGMP-dependent phosphorylation in intact human platelets. Both compounds are not degraded by Ca / calmodulin-dependent phosphodiesterase.

Reference Example 2 Immobilization of R _P -8-Br-cGMPS to a Support Material for Affinity Chromatography

200 ml of Fraktogel TSK AF Amino 650® (Merck) are washed with water in a sintered glass frit and then suspended in 100 ml of sodium acetate buffer (20 mM) in a 250 ml 2-necked flask. 280 mg of R _P -8-Br-cGMPS (500 .mu.mol of triethylammonium salt) are added and the suspension is stirred moderately at 80.degree. C. under reflux. The decrease in unreacted R _P -8-Br-cGMPS is controlled by high pressure liquid chromatography (Rp-18, 10% methanol / 100 mM triethylammonium formate buffer). After 48 hours, the suspension is filtered, the residue was washed with water to constant absorption at 260 nm and protected with 1 mM sodium azide against microbial infestation ge.

Comparative tests (Submitted, received on 30.6.97) Use of the compound of the invention in the thrombosis for research

R _P -8-pCPT-cGMPS is a competitive inhibitor (ki = 0.5 μM) of the cGMP-dependent protein kinase ( Figure 1). For comparison, the inhibition constants of other cyclonucleotides tested are shown in the following table. It can be seen that the potency and selectivity of R _P -8-pCPT-cGMPS is significantly greater than for R _P -cGMPS. Consistent with previous studies, cAMP-dependent protein kinase activity in platelet membranes by cAMP results in phosphorylation of specific substrate proteins of masses 22, 24, 50, 68, 130, and 240 kDa ( Figure 2). In contrast, cGMP via the activity of the cGMP-dependent protein kinase produces the phosphorylation of three proteins of masses 46, 50 and 130 kDa ( FIG. 2). Preincubation of the platelet membranes with R _P -8-pCPT-cGMPS inhibited cGMP-stimulated phosphorylation of the 46 kDa protein at 10 μM while cAMP-dependent phosphorylation was scarcely affected up to 100 μM ( Figure 2).

table

The inhibition of platelet membranes by the cGMP level increasing substances such as sodium nitroprusside (SNP) or by cAMP level enhancing compounds such as prostacyclin (PG-E₁) is attributed to the involvement of cGK or cAK. One of the main substrates for protein kinases in intact human platelets is the 46/50 kD protein, which is also VASP is called. Phosphorylation of VASP by cGK or cAK to a shift in molecular weight on the gel from 46 to 50 kDa.

To assess the inhibitory effect of R _P -8-pCPT-cGMPS in intact cell systems, washed human thrombocytes were pretreated with R _P -8-pCPT-cGMPS (1 mM) and 0.2 mM of the cell membrane-common cGK -specific activator 8-pCPT-cGMP stimulated. While preparations without the inhibitor showed about 40% conversion of 46 kDa to 50 kDa VASP, there was no change in the presence of R _P -8-pCPT-cGMPS ( Figure 3), suggesting inhibition of cGK in the latter case leaves.

In contrast, the stimulation with a specific cAK activator (S _P -5,6-DCl-cBIMPS, 0.1 mM) or cAMP-enhancing PG-E₁ (1 μM) within 60 minutes leads to 60% or 100% conversion of VASP to the 50 kDa form, whether R _P -8-pCPT-cGMPS is present or not ( Figures 3 B and C).

Effect of cyclonucleotides on phosphodiesterases

R _P -8-pCPT-cGMPS was evaluated in a study for its properties as an inhibitor of various phosphodiesterases (PDE). Since cyclonucleotide-dependent phosphodiesterases are responsible for the degradation of cAMP and cGMP in the cell, stimulation or inhibition of these enzymes also affects the signal transduction pathway. In particular, the cGMP-inhibited PDE (cGI-PDE) is of interest because it is degraded by cGMP, cAMP and thus leads to a dovetailing of both signaling pathways.

The compound R _P -8-pCPT-cGMPS according to the invention poorly inhibits the cGMP-inhibited PDE (cGI-PDE), in contrast to the already known compound 8-pCPT-cGMP. However, an unrestrained cGI-PDE remains available for the natural regulation of the cAMP level and is thus advantageous.

cGI-PDE (0.03 μM) derivatives I _c 50 values in μM cGMP 0.01 cAMP 1 6-SH-cGMP 0.5 1-CH₃-cGMP 0.2 8-Cl-cGMP 25 8-Br-cGMP 27 8-CH₃-cGMP 40 8-pCPT-cGMP 35 R _p -8-pCPT-cGMP 200

Claims (7)

1. guanosine-3 ', 5'-phosphorothioate of the general formula I. in the
R¹ and R² are hydrogen and X is the 4-chlorophenylthio radical, or the general formula II in the X -Br is,
Kat⁺ is a proton, a physiologically acceptable metal cation or a trialkylammonium ion. 2. Compounds according to claim 1, characterized in that the sulfur atom of the Thiophosphatrests is in equatorial position (R _P isomers). 3. Compounds according to claim 1, characterized in that the sulfur atom of the Thiophosphatrests in axial posi tion is (S _P isomers). 4. Compounds according to claims 1 to 3, characterized in that Kat⁺ Na⁺, K⁺, Li⁺, ½ Ca ²⁺ or ½ Mg ²⁺ is. 5. Use of compounds according to claim 2 or R _p- konfi gurierten compounds according to claim 4 as inhibitors of cGMP-dependent protein kinases. 6. Use of compounds according to claim 3 or S _P- konfi gurierten compounds according to claim 4 as activators cGMP-dependent protein kinases. 7. Use of compounds according to claims 1 to 4 as enzymatically hydrolysis-resistant ligands in the liquid keits- or affinity chromatography or for the preparation of stationary phases for the fluid or affini Chromatography, wherein the compounds to a insoluble polymeric matrix of silica gel, glass, silicone polymers, Polyacrylamide, polystyrene, ethylene glycol-methacrylic acid Copolymer, agarose, cellulose or dextran are bound and the matrix suitable spacers for binding ligands wearing.