DE1922173A1 - 6-substd purine riboside 3',5'-cyclophosphates - Google Patents

Abstract

6-Subst. purine riboside 3',5'-cyclophosphates. Cpds. of formula (I) (where R is H, OH or amino and X is halogen other than Cl, an ether group or -NR1R2 in which R2 is alkyl, alkenyl, aryl or aralkyl in which the aromatic groups are opt. substd. by halogen, alkyl and alkoxy and the alkyl groups by OH, and R1 is H or such a group, or NR1R2 is heterocyclyl opt. contg. a further hetero atom), which have effects on glycolysis, lipolysis and hormone metabolism, are prepd. by reacting a corr. cpd. in which X is OH with an acylating agent in the presence of a base, reacting the product with excess phosphorus oxyhalide and, if required, reacting the resulting (I; X=halogen) with an alcohol or amine or suitable derivative.

Description

Purine ribonucleoside 3 'substituted in position 6: 5'-cyclophosphates and process for their preparation (addition to P 17 95 308.1) The German patent. ... ... (patent application P 17 95 308.1) relates to 6-chloropurine ribonucleoside-3 ': 5'-cyclophosphate of the general formula in, where R is a hydrogen atom, a hydroxyl or amino group, and salts thereof with physiologically compatible bases.

The above patent also relates to a method for producing the compounds described above, which consists in that a 6-hydroxypurine ribonucleoside 3 ': 5'-cyclophosphate reacted with an acylating agent in the presence of a base, unreacted Acylating agent and base removed and the residue with excess POCl3 is reacted at a temperature between room temperature and reflux temperature.

The present invention atells a further development of the subject matter of patent 1,795,308.1. The invention relates to purine ribonucleoside 3 ': 5'-cyclophosphates of the general formula substituted in the 6-position in which X denotes a halogen atom other than chlorine, an ether group or a group NR1R2, in which R1 and R2, independently of one another, each denote a saturated or unsaturated, straight-chain or branched alkyl or alkenyl group, an aryl or aralkyl group, R1 also denotes a hydrogen atom, and the aromatic rings by halogen atoms, alkyl groups and alkoxy groups, the alkyl groups can be substituted by OH groups, or R1 and R2 together, optionally with a further heteroatom, form a heterocyclic ring, and R denotes a hydrogen atom, a hydroxyl or amino group.

Those compounds according to the invention are preferred in which X denotes an alkyloxy, in particular lower alkyloxy group, or a group NR1R2, in which R1 and R2 each have a lower alkyl group, a lower alkenyl group, independently of one another, an aryl group or an aralkyl group optionally included in the aromatic Rings by lower alkyl groups, halogen atoms, hydroxyl groups or lower alkoxy groups and in the alkyl chains can be substituted by OH groups, R1 is also a Represent hydrogen atom, or R1 and R2 together, optionally with another Heteroatom, form a saturated or unsaturated heterocyclic ring.

In the context of the description of the invention and in the patent claims alkyl, alkenyl and alkoxy groups include those with straight or branched ones Chain and up to 18 carbon atoms, among lower-alkyl, lower-alkenyl and lower-alkoxy groups understood those with up to 6 carbon atoms. Aralkyl groups include those with up to to 8 carbon atoms in the straight or branched alkyl chain, preferably under heteroatom To understand nitrogen or oxygen.

The compounds are prepared according to the invention by a corresponding 6-Hydroxypruinribonucleoside-3 ': 5'-cyclophosphate with an acylating agent in the presence a base unset, unreacted acylating agent and base removed and the residue is reacted with excess phosphorus oxyhalide, whereupon the 6-halogen derivative thus obtained, optionally with an amine or alcohol or a suitable derivative thereof is reacted to form the desired compound, where X is not halogen.

The 6-chloro derivative is preferably used with phosphorus oxychloride in a Temperature between room temperature and reflux temperature produced and in aqueous or alcoholic solution with excess amine or alcoholate at one temperature implemented between -10 ° and reflux temperature.

The products obtained are purified in accordance with those in nucleoside chemistry usual methods. Chromatographic purification will give good results achieved. An anion exchanger, activated carbon or silica gel is preferably used for this purpose used.

The compounds according to the invention are new. You are, as already indicated in the main patent, interesting therapeutically effective substances and can as such or in the form of their salts with physiologically compatible bases for influencing glycolysis, lipolysis and hormone metabolism. The best known combination of the same direction of action and comparable chemical constitution, the N6-2'-O-dibutyryl-adenosine-3 ': 5'-monophosphate, are the compounds according to the invention superior in several ways.

In particular, they have the following advantages: 1. Phosphorylase activation occurs with the substances according to the invention even at lower concentrations than in the case of the known compound mentioned.

2. The lipolysis activation of the compounds according to the invention occurs either with the same or with a moderately reduced tone concentration. The Polge is a shift in the spectrum of activity in favor of phosphorylase activation, those in the table below by the concentration quotient for both activations (last column) is expressed. Compared to a factor of 2 for the known connection shift the effects of the compounds according to the invention to the factor 3 to 500. In some cases, the lipolysis activity is so weak that that of an almost pure phosphorylase activity, ie high pharmacological Specificity that can be spoken of.

In the table below are the results of the Comparison smoke listed.

T a b e l l e I Physiological-chemical properties of the 6-substituted Derivatives of purine ribofuranoside 3 ': 5'-monophosphate (PR-3': 5'-MP) max.activation Half-value quotient of the substance of lipolysis upon activation d. Concentrations (M) phosphorylase for lipase and, in the case of (M) phosphorylase activation, N6-2'-O-dibutyryl-A-3 ': 5'-MP 4.10-6 2.10-6 2 6-Benzylamino-PR-3 ': 5'-MP 1.10-7 7.10-9 14 6- (2-methylbenzylamino) - 5.10-6 1.10-8 500 PR-3 ': 5'-MP 6- (4-methylbenzylamino) - 5.10-7 1.10-7 5 PR-3': 5'-MP 6- (2-chlorobenzylamino) - 5.10-7 7.10-9 71 PR-3 ': 5'-MP 6- (1-phenyl-) ethylamino- 3.10-7 3.10-8 10 PR-3 ': 5'-MP 6- (2-phenyl-) ethylamino- 1.10-6 large PR-3': 5'-MP 6-pentylamino-PR-3 ': 5'-MP 1.10-4 7.10-8 large 6- (1-allylamino) -PR-3 ': 5'-MP 1.10-5 1.10-7 100 6-ephedrinyl-PR-3': 5'-MP 1.10-5 7.10-7 14 6-morpholino-PR-3 ': 5'-MP 2.10-7 7.10-8 3 6-methoxy-PR-3': 5'-MP > 10-3 1.10-7 large 6-chloro-PR-3 ': 5'-MP 2.10-6 1.10-7 20 Except influencing the carbohydrate metabolism come the compounds according to the invention other interesting effects, e.g. a general energy mobilizing effect, which, for example, allows use in stress and shock. Another effectiveness lies in increasing adrenal steroid production as well as in solving Asthma.

The compounds of the invention also act as a preformed nucleotide and can therefore, for example, have an antimetabolic effect in immunosuppression as well as with tumors. It also had a general sedative effect in some cases a potentiation of the effects of narcotics has also been found. Even a positive inotropic heart effect could be determined.

The following examples further illustrate the invention, Example 1 6-morpholino-purine-ribofuranoside-D ': 52-MP-natrtum2 as 5 g of crude 6-chloropurine-riboside-3': 5'-MP in the form of the free acid (content of pure 6-chloropurine riboside-3 ': 5'-MP approx. 60%) are dissolved in 20 ml of water, and an excess of morpholine (6 ml) is added and held at 800 for 1 hour. After cooling, most of the morpholine becomes removed by shaking out three times with ether. The aqueous phase is after Acidification with acetic acid to pH = 3 on an anion exchange column (Dowex 1 X 2, Formate; 1 m long, 1.5 cm), washed with 500 ml of water and with a linear gradient of 2 1 water against 2 1 1 M ammonium formate eluted. Included all impurities are removed. The desired product is made with 1.5 M ammonium formate eluted, the eluate is desalted over a charcoal column (100 ml content) and the product eluted with isopropanol: water: NH3 = 50: 50: 1. After concentration in a vacuum and passage through the cation exchange (Dowex 50 - Na-Form) is freeze-dried.

Yield: C14H17O7N5P Na. 1H2O, molecular weight 439.31 calculated N 15.93 %, P 6.82%, Na 5.24%, H20 4.1% Found N 16.3%, P 6.98%, Na 5.3%, H20 4.1 % Example 2 6- (4-Methylbenzylamino) -purine ribofuranoside-3 ': 5'-MP sodium salt 5 g Crude 6-chloropurine riboside-3 ': 5'-MP in the form of the free acid (12.5 mmol, 67.5% an free acid), are mixed with 4.5 g of 4-methylbenzylamine (37.5 mmol) in 50 ml of ethanol dissolved and heated under reflux for 1 to 2 h. After the alcohol has been distilled off taken up in 100 ml of water and twice with 50 ml of ether in a separating funnel extracted. The aqueous phase is passed through a Dowex 1 X 2 column (formate form, 50-100 mesh) drawn. With a linear gradient of 2 liters of water, 2 liters of 1.5 M ammonium formate the impurities are washed out. Subsequent elution with 1.5M Sodium chloride, pH = 3, the product is eluted, the pooled fractions are Desalted over charcoal and eluted with a mixture of ethanol: water: NH3 = 50: 50: 1.

The aqueous phase is concentrated and after a Dowex 50 - Na form passage freeze dried.

Yield: 3.2 g, approx. 73% of theory, based on the amount used 6-chloropuric riboside-3 ': 5'-MP. Purity approx. 95%.

The 3.2 g of product are used to completely remove the impurities dissolved in a little water and placed on 3 silica gel thick-layer plates (50 cm long, 20 cm high; Layer thickness 2.5 mm) and with isopropanol: NH3: H20 = 7: 1: 1, pH = 10, developed within 10 hours. After removal of colloidally dissolved SiO2 1.9 g of pure sodium salt are thus obtained on charcoal.

Analysis 018H1906N5PNa Nol weight 455.37 The freeze-dried substance still contains 4.98% H2O calculated N 14.65% P 6.50, Na 4.83% found N 13.80 % P 6.11% Na 5.3% Example 3 6-Methoxy-purine ribofuranoside-3 ': 5'-MP 5 g of crude 6-chloropurine riboside-3': 5'-MP in the form of the free acid (70%) are dissolved in 150 ml of methanol and with methanolic Sodium hydroxide solution (3 g NaOH per 100 ml methanol) adjusted to pH = 10 bts 11. After 30 Min. Is neutralized to pH = 7 with acetic acid and distilled to dryness, the Residue in 100 ml of water dissolved and over a column with 300 ml of Dowex 1 X 2 (50-100 mesh, formate form). After elution with a linear gradient of 2 liters of distilled water against 1.5 M ammonium formate is then further eluted with 3 - 4 1 1.5 M ammonium formate. The 6-methoxy-purine riboside 3 ': 5'-MP The fraction containing (Rf in solvent A - Rf: 0.56) is passed through a carbon column (100 ml). After pre-washing with water, isopropanol: H2O: NH3 - 50: 50: 1 eluted and the eluate concentrated to approx. 50 ml.

After passing through Dowex 50 - Ht-Borm, it is freeze-dried.

Yield: 3.0 g approx. 77% of theory Analysis: C11H13O7N4P molecular weight 343.22 According to the analysis, the substance still contains 3.3% H2O.

Calculated N 15.70 ffi P 8.41 ffi Found N 15.1% p 8.55%.

Examples 4 to 15 The compounds listed below have been obtained prepared as described in the previous examples.

Example Compound X 4 6-Pentylamino-Pu-3 ': 5'-MP NR1R2; R1 = pentyl, R2 = H5 6-dimethylamino-Pu-3 ': 5'-MP NR1R2; R1 = R2 = methyl 6 6- (allylamino) -Pu-3 ': 5'-MP NR1R2; R1 = allyl, R2 = H7 6- (benzylamino) -Pu-3 ': 5'-MP NR1R2; R1 = benzyl, R2 = H 8 6- (2'-chlorobenzylamino) - NR1R2; R1 = 2'-chlorobenzene-Pu-3 ': 5'-MP zyl; R2 = H 9 6- (2'-methylbenzylamino) - NR1R2; R1 = 2'-methyl-Pu-3 ': 5'-MP benzyl; R2 = H Example Compound X 10 6- (3 ', 4'-Dimethoxyphenyl- NR1R2; R1 = 3'4'-diethylamino) -Pu-3 ': 5'-MP methoxyphenylethyl, R2 = H 11 6- (2-phenylethylamino) -Pu- NR1R2; R1 = phenylethyl-3 ': 5'-MP (2); R2 = H 12 6- (1-phenylethylamino) -Pu-NR1R2; R1 = phenylethyl-3 ': 5'-MP (1); R2 = H13 6- (1-phenylbutyl- (3) -amino) - NR1R2; R1 = 1-phenyl-Pu-3 ': 5'-MP butyl- (3), R2 = H14 6- (piperidino) -Pu-3 ': 5'-MP NR1R2; R1 + R2 = piperidino 15 6- (ephedrino) -Pu-3 ': 5'-MP NR1R2; R1 = 3-phenyl-3-hydroxypropyl- (2); R2 = CH3 16 6-phenylamino-Pu-3 ': 5'-MP NR1R2; R1 = phenyl; R2 = H 17 6-benzyloxy-Pu-3 ': 5'-MP benzyloxy fital In the The table below is the characteristic data of those listed in the examples Compounds according to the invention in terms of UV spectrum and electrophoretic Behavior reproduced.

T able II Neutral, acidic, alkaline Compound 005 M phosphate O. IN HCl O. IN NAOH max. min. max. min. max. min. 6-piperidino-Pu-3 ': 5'-MP 279.5 244 278 238 281.5 246 6-Morpholino-Pu-3 ': 5'-MP 277 235 273.5 235 278 238.5 6-Ephedrino-Pu-3 ': 5'-MP 277 246 273 241 279 245 6-Allylamino-Pu-3 ': 5'-MP 266 230 262.5 230 267 233 6-pentylamino-Pu-3 ': 5'-MP 266.5 231 262 229 267.5 234 6-Benzylamino-Pu-3 ': 5'-MP 266 236 265 235 268 238 6- (2'-chlorobenzylamino) - 267.5 232.5 264 232.5 268.5 235 Pu-3 ': 5'-MP 6- (3 ', 4'-dimethoxyphenyl-268 235 264 234 269 240 ethylamino) -Pu-3 ': 5'-MP 6- (4'-methylbenzylamino) - 267 237 266 236 269 240 Pu-3 ': 5'-MP 6- (2-phenylethylamino) - 268 232.5 264 232 268 234.5 Pu-3 ': 5'-MP 6- (1-phenylethylamino) - 267.5 241 266 234 270 238 Pu-3 ': 5'-MP 6- (1-Phenylbutylamino- (3 -) - 269 237 266 236 270 240 Pu-3 ': 5'-MP 6-methoxy-Pu-3 ': 5'-MP 247 220 249 220 250 222 6-dimethylamino-Pu-3 ': 5'-MP 274 235 268 231.5 275 237.5 6- (2'-methylbenzylamino) - 266.5 231.5 264 232.5 267.5 235 Pu-3 ': 5'-MP Table II - continued UV quotient ++ electrical. + Chromato- phor. MOB graphics Connection neutral acidic rel. To in LSMA +++ 250/280/290/250/280/290 / A-3 ': 5'MP 260 260 260 260 260 260 6-piperidino-Pu-3 ': 5'-MP 0.46 2.17 1.88 0.53 1.22 0.82 0.94 0.74 6-Morpholino-Pu-3 ': 5'-MP 0.46 1.93 1.27 0.52 1.35 0.91 0.97 0.64 6-Ephedrino-Pu-3 ': 5'-MP 0.49 1.94 1.61 0.57 1.28 0.89 0.84 0.78 6-Allylamino-Pu-3 ': 5'-MP 0.58 0.67 0.21 0.65 0.47 0.13 0.95 0.67 6-pentylamino-Pu-3 ': 5'-MP 0.56 0.79 0.32 0.66 0.45 0.14 0.91 0.80 6-benzylamino-Pu-3 ': 5'-MP 0.58 0.84 0.33 0.64 0.70 0.24 0.86 0.73 6- (2'-chlorobenzylamino) - 0.56 0.79 0.27 0.63 0.68 0.24 0.73 0.79 Pu-3 ': 5'-MP 6- (3 ', 4'-dimethoxyphenyl-0.55 0.93 0.43 0.67 0.61 0.25 0.87 0.81 ethylamino) -Pu-3 ': 5'-MP 6- (4'-methylbenzylamino) - 0.57 0.87 0.34 0.65 0.72 0.26 0.81 0.77 Pu-3 ': 5'-MP 6- (2-phenylethylamino) - 0.56 0.83 0.33 0.63 0.64 0.22 0.83 0.78 Pu-3 ': 5'-MP 6- (1-phenylethylamino) - 0.57 0.88 0.35 0.63 0.74 0.25 0.86 0.80 Pu-3 ': 5'-MP 6- (1-phenylbutylamino- (3)) - 0.55 0.99 0.48 0.65 0.70 0.30 0.80 0.86 Pu-3 ': 5'-MP 6-methoxy-Pu-3 ': 5'-MP 1.6 0.06 0.03 1.41 0.059 0.03 1.15 0.56 6-dimethylamino-Pu-3 ': 5'-MP 0.47 1.44 0.87 0.59 0.82 0.37 1.1 0.61 6- (2'-methylbenzylamino) - 0.57 0.77 0.28 0.64 0.65 0.18 0.85 0.76 Pu-3 ': 5'-MP Table II - continued Neutral, acidic, alkaline Compound 005 M phosphate O.IN HCl O.IN NAOH max. min. max. min. max. min. 6-phenylamino-Pu-3 ': 5'-MP 287.5 243 273 237 288 243 6-benzyloxy-Pu-3 ': 5'-MP 250 225 250 224.5 250 230 Electro. + Chroma- UV quotient ++ phor.MOB togra- Connection neutral acidic rel. To apophy in 250/280/290/250/280/290/3 ': 5'-MP LSMA 260 260 260 260 260 260 +++ 6-phenylamino-Pu-3 ': 5'-MP 0.61 2.22 2.48 0.64 1.19 0.93 0.70 0.73 6-Benzyloxy-Pu-3 ': 5'-MP 1.38 0.10 0.07 1.27 0.10 0.05 0.82 0.80 + Electrophoresis on Whatman paper no. 3 NM, 13 cm wide, 1200 volts, 45 minutes; Buffer: 0.05 M ethylammonium bicarbonate, pH: 7.5 Chromatography on Schleicher and Schüll paper 2043 b, descending, 15 hours; Mobile phase: Isopropanol: NH3: H2O = 7: 1: 2 (= LSM A).

++ Spectra recorded with a Beckman DK II A device.

+++ LSM A = isopropanol / NH3iH2O = 7: 1: 2.

Claims (5)

P a t e n t a n s p r ü c h e 1. Compounds of the general formula in which R is a hydrogen atom, a hydroxyl or amino group and X is a halogen atom other than chlorine, an ether group or a group NR1R2, in which R1 and R2 are each, independently of one another, a saturated or unsaturated, straight-chain or branched alkyl or alkenyl group, an aryl or Aralkyl group, R1 also a hydrogen atom, and the aromatic rings by halogen atoms, alkyl groups and alkoxy groups, the alkyl groups can be substituted by OH groups or R1 and R2 together, optionally with a further heteroatom, form a heterocyclic ring. 2. Compounds according to claim 1, characterized in that X is fluorine, Bromine or iodine, an alkyloxy, aryloxy or aralkoxy group or a group NR1R2 means. 3. Compounds according to claim 1, characterized in that X is a is a lower alkoxy group or a group NR1R2 in which R1 and R2 are independent one lower alkyl group from each other, a lower alkenyl group, an aryl group or an aralkyl group optionally included in the aromatic Rings by lower alkyl groups, halogen atoms, hydroxyl groups or lower alkoxy groups and in the alkyl chains can be substituted by OH groups, R1 is also a Represent hydrogen atom or R1 and R2 together, optionally with another Heteroatom, form a heterocyclic ring. 4. Process for the preparation of the compounds according to Claim 1 to 3, characterized in that a corresponding compound in which X is a hydroxyl group represents, reacted with an acylating agent in the presence of a base, not reacted acylating agent und.Base removed and the residue with excess Phosphorocyhalide is reacted, whereupon the 6-halogen derivative obtained in this way, if appropriate is reacted with an amine or alcohol or a suitable derivative thereof under Formation of the desired compound in which X is not halogen. 5. The method according to claim 4, characterized in that using of phosphorus oxychloride the 6-chloro derivative at a temperature between room temperature and reflux temperature produced and this in aqueous or alcoholic solution with excess amine or alcoholate at a temperature between -t K and the reflux temperature is implemented.