Asante-Appiah E, Seetharaman J, Sicheri F, Yang D S, Chan W W
Department of Biochemistry, McMaster University, Hamilton, Ontario, Canada L8N 3Z5.
Biochemistry. 1997 Jul 22;36(29):8710-5. doi: 10.1021/bi970354b.
gem-Dimethylsuccinic acid and its higher homolog, 2-methyl-2-ethylsuccinic acid (MESA) are highly potent inhibitors of both carboxypeptidase A (CPA) and B. The inhibition constant of MESA for CPA (0.11 microM for the racemic mixture) is remarkable considering the relatively simple structure of the compound. The molecular feature which is crucial for high affinity binding to both carboxypeptidases appears to be the nonpolar gem-dialkyl locus. The structure of the complex between MESA and CPA has been determined by X-ray crystallography to 2.0 A resolution and shows the R enantiomer of the inhibitor to be bound in a generally substrate-like manner. The carboxymethyl group is coordinated to the Zn ion in the active site, and the gem-dialkyl locus corresponds in position to the alpha-carbon of the C-terminal amino acid in a peptide substrate. The methyl group of the inhibitor occupies a cavity in the enzyme which is apparently not filled upon substrate-binding. We postulate that this cavity (the alpha-methyl hole) is designed to allow the proximal Glu-270 residue to undergo a critical movement during catalysis. The hydrophobic nature of the above cavity may play a role in modulating the reactivity of this residue. These results suggest that similar cenophilic(empty-loving) inhibitors may be found for other enzymes.
偕二甲基琥珀酸及其高级同系物2-甲基-2-乙基琥珀酸(MESA)是羧肽酶A(CPA)和B的高效抑制剂。考虑到该化合物相对简单的结构,MESA对CPA的抑制常数(外消旋混合物为0.11微摩尔)相当显著。对于两种羧肽酶具有高亲和力结合至关重要的分子特征似乎是非极性偕二烷基位点。MESA与CPA之间复合物的结构已通过X射线晶体学确定至2.0埃分辨率,结果表明抑制剂的R对映体以一般类似底物的方式结合。羧甲基与活性位点的锌离子配位,偕二烷基位点在位置上对应于肽底物中C末端氨基酸的α-碳。抑制剂的甲基占据酶中的一个腔,该腔在底物结合时显然未被填满。我们推测这个腔(α-甲基孔)旨在允许近端的Glu-270残基在催化过程中发生关键移动。上述腔的疏水性质可能在调节该残基的反应性中起作用。这些结果表明,对于其他酶可能会发现类似的嗜空(空穴亲和)抑制剂。