Synthesis and anticonvulsant activity of 3-alkoxycarbonylaminomethylcarbonylamino-4-benzoylpyridines .

Drug design and delivery Pub Date : 1990-06-01
C Y Fiakpui, M N Namchuk, E E Knaus
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Abstract

3-Alkoxycarbonylaminomethylcarbonylamino-4-(arylcarbonyl)pyr idines--in which the chlorophenyl ring of dipeptidylaminobenzophenones is replaced by a pyridyl ring--were synthesized and evaluated as anticonvulsants using subcutaneous pentylenetetrazole (scPTZ) and maximal electroshock (MES) induced seizure screening tests. The substituent on the aryl ring of the 4-arylcarbonyl moiety was a determinant of activity in both tests, the potency order of substituents being generally 2-F greater than 2-H greater than 2-Cl. Compounds possessing a 3-benzyloxycarbonylaminomethylcarbonylamino substituent exhibited moderate activity in the scPTZ test, whereas all 3-tert-butoxycarbonylaminomethylcarbonylamino derivatives were inactive. The test results in the scPTZ screen suggest that the 3-benzyloxycarbonylaminomethylcarbonyl(N-methyl)amino compounds may undergo biotransformation, at least in part, to pyrido[3,4-e]-1,4-diazepin-2-ones. 3-Alkoxycarbonylaminomethylcarbonyl(N-methyl)amino-substituted compounds were always more potent than analogous 3-alkoxycarbonylaminomethylcarbonylamino-substituted compounds in the scPTZ test, whereas they were equipotent in the MES screen. Following oral administration, 3-benzyloxycarbonylaminomethylcarbonyl(N-methyl)amino-4-(2-chlorob enzoyl) pyridine exhibited a potency greater than that of valproic acid but less than that of clonazepam in the rat scPTZ screening test. 3-Benzyloxycarbonylaminomethylcarbonylamino-4-(2-fluorobenzoyl)pyr idine was the most potent compound in the rat oral MES screening test, exhibiting an activity greater than that of clonazepam but less than that of phenytoin. The 3-alkoxycarbonylaminomethylcarbonylamino-4-(arylcarbonylpyridin es had moderate affinity for the benzodiazepine receptor site(s); the IC50s in displacing 10 nM [3H]flunitazepam were in the 0.37-15.11 microM range (clonazepam = 0.003 microM).

3-烷氧羰基氨基甲基羰基氨基-4-苯甲酰吡啶的合成及抗惊厥活性。
合成了3-烷氧羰基氨基甲基羰基氨基-4-(芳基羰基)吡啶——其中二肽氨基苯甲酮的氯苯环被吡啶环取代——并使用皮下戊四唑(scPTZ)和最大电击(MES)诱发癫痫筛查试验作为抗惊厥药进行了评估。在两个试验中,4-芳羰基部分芳基环上的取代基是活性的决定因素,取代基的效价顺序通常为2-F大于2-H大于2-Cl。含有3-苄基氧羰基氨基甲基羰基氨基取代基的化合物在scPTZ测试中表现出中等的活性,而所有3-叔丁基羰基氨基甲基羰基氨基取代基衍生物都没有活性。scPTZ筛选的测试结果表明,3-苯氧羰基氨基甲基羰基(n-甲基)氨基化合物可能至少部分地发生生物转化为吡啶[3,4-e]-1,4-二氮平-2-酮。在scPTZ测试中,3-烷氧羰基氨基甲基羰基(n -甲基)氨基取代化合物总是比类似的3-烷氧羰基氨基甲基羰基氨基取代化合物更有效,而在MES筛选中它们是等效的。在大鼠scPTZ筛选试验中,口服3-苯氧羰基氨基甲基羰基(n -甲基)氨基-4-(2-氯甲酰)吡啶的效价高于丙戊酸,但低于氯硝西泮。3-苯氧羰基氨基甲基羰基氨基-4-(2-氟苯甲酰)吡啶是大鼠口服MES筛选试验中最有效的化合物,其活性高于氯硝西泮,但低于苯妥英。3-烷氧羰基氨基甲基羰基氨基-4-芳基羰基吡啶类对苯二氮卓类受体位点有中等亲和力;氟硝西泮置换10 nM [3H]时ic50在0.37 ~ 15.11 μ m范围内(氯硝西泮= 0.003 μ m)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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