Fries R W, Bohlken D P, Plapp B V
J Med Chem. 1979 Apr;22(4):356-9. doi: 10.1021/jm00190a005.
3-Substituted pyrazoles, HOCH2 (1), HOCH2CH2 (2), HOCH2CH2CH2 (3), ClCH2 (4), ClCH2CH2 (5), ClCH2CH2CH2 (6), and CH3CO (7), were synthesized and evaluated in vitro on horse liver alcohol dehydrogenase for their potential as inhibitors of ethanol metabolism. 1 to 6 bound to the enzyme-NAD+ complex with dissociation constants of 40 to 200 microM, much higher than the constants for the corresponding 4-substituted pyrazoles, but with the same absorption maximum at 295 nm. 4 inactivated the enzyme within a few minutes, but NAD+ protected against reaction, and 4 nonspecifically alkylated many sulfur atoms in the protein. The isomer, 4-(chloromethyl)pyrazole, behaved similarly, 5 and 6 strongly inhibited the enzyme in the presence of NAD+, due to formation of the slowly dissociable (10(-3)s-1) enzyme-NAD+-pyrazole complex, but did not irreversibly inactivate the enzyme. 7 inhibits the enzyme weakly (Kp = 5 mM). It appears that the 3-substituted pyrazoles bind to the enzyme-NAD+ complex with the reactive functional group improperly positioned for specific irreversible reaction.
合成了3-取代吡唑类化合物,即HOCH₂(1)、HOCH₂CH₂(2)、HOCH₂CH₂CH₂(3)、ClCH₂(4)、ClCH₂CH₂(5)、ClCH₂CH₂CH₂(6)和CH₃CO(7),并在体外对马肝醇脱氢酶进行了评估,以确定它们作为乙醇代谢抑制剂的潜力。1至6与酶-NAD⁺复合物结合,解离常数为40至200微摩尔,远高于相应4-取代吡唑的常数,但在295纳米处具有相同的最大吸收峰。4在几分钟内使酶失活,但NAD⁺可防止反应发生,且4会非特异性地烷基化蛋白质中的许多硫原子。异构体4-(氯甲基)吡唑表现类似,5和6在NAD⁺存在下强烈抑制酶,这是由于形成了缓慢解离(10⁻³秒⁻¹)的酶-NAD⁺-吡唑复合物,但不会使酶不可逆地失活。7对酶的抑制作用较弱(Kp = 5毫摩尔)。似乎3-取代吡唑与酶-NAD⁺复合物结合时,其反应性功能基团的位置不利于特异性不可逆反应。