Synthesis and antinociceptive activity of 4-pyridyl and -dihydropyridyl analogues of meperidine and ketobemidone.

Drug design and delivery Pub Date : 1990-12-01
J K Buolamwini, E E Knaus
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Abstract

The synthesis and antinociceptive activity of 4-pyridylpiperdines (7 and 10) in which the phenyl group pf meperidine (1) or ketobemidone (3) is replaced by 2'-, 3'- or 4'-pyridyl is described. All were active in a rat writhing test, and the results showed that the point of attachment of the pyridyl ring to the 4-position was an important determinant of the activity; the relative potency order was 3'-pyridyl greater than 4'-pyridyl greater than 2'-pyridyl in each of the two series. The most potent compound (half the potency of meperidine) was 4-ethoxycarbonyl-4-(3'-pyridyl)-l-methylpiperidine (7b). This compound, and the corresponding 4'-isomer (7c), were further elaborated to provide 1'-phenyl, 1',6'-dihydropyridine (11), and 1'-phenyl, methyl or n-butyl. 1',2'-dihydropyridine (12) analogues containing an acyl function on the ring nitrogen. The most active compound in this series was 4-[4'-(1'-phenoxycarbonyl-2'-n-butyl-l',2'-dihydropyridyl)]- 4- ethoxycarbonyl-l-methylpiperdine (12k). Though less potent than the parent pyridyl compound (7c), it induced 70% inhibition in the writhing test at a dose of 8 mg/kg sc. [The ED50 for meperidine was 0.6 mg/kg sc.]

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哌替啶和酮贝酮的4-吡啶和-二氢吡啶类似物的合成及其抗伤活性。
本文描述了4-吡啶基哌替啶(1)或酮苯酮(3)的苯基被2'-、3'-或4'-吡啶基取代的4-吡啶基哌替啶(7和10)的合成及其抗炎活性。在大鼠扭体实验中均有活性,结果表明吡啶环与4位的附着点是决定活性的重要因素;相对效价顺序为3′-吡啶基> 4′-吡啶基> 2′-吡啶基。最有效的化合物是4-乙氧羰基-4-(3'-吡啶基)-l-甲基哌啶(7b)。该化合物和相应的4′-异构体(7c)进一步得到1′-苯基、1′,6′-二氢吡啶(11)和1′-苯基、甲基或正丁基。1',2'-二氢吡啶(12)在环氮上含有酰基的类似物。该系列化合物中活性最高的是4-[4'-(1'-苯氧羰基-2'-正丁基- 1',2'-二氢吡啶)]- 4-乙氧羰基- 1 -甲基哌啶(12k)。虽然药效不如母体吡啶化合物(7c),但在8 mg/kg sc的剂量下,它在扭体试验中有70%的抑制作用[哌替啶的ED50为0.6 mg/kg sc]。
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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