McIntyre Neil R, Lowe Edward W, Battistini Matthew R, Leahy James W, Merkler David J
a Department of Chemistry , Xavier University of Louisiana , New Orleans , LA , USA .
b Department of Chemistry , University of South Florida , Tampa , FL , USA , and.
J Enzyme Inhib Med Chem. 2016 Aug;31(4):551-62. doi: 10.3109/14756366.2015.1046064. Epub 2015 May 29.
Peptidylglycine α-amidating monooxygenase (PAM) is a bifunctional enzyme that catalyzes the final reaction in the maturation of α-amidated peptide hormones. Peptidylglycine α-hydroxylating monooxygenase (PHM) is the PAM domain responsible for the copper-, ascorbate- and O2-dependent hydroxylation of a glycine-extended peptide. Peptidylamidoglycolate lyase is the PAM domain responsible for the Zn(II)-dependent dealkylation of the α-hydroxyglycine-containing precursor to the final α-amidated peptide. We report herein that cinnamic acid and cinnamic acid analogs are inhibitors or inactivators of PHM. The inactivation chemistry exhibited by the cinnamates exhibits all the attributes of a suicide-substrate. However, we find no evidence for the formation of an irreversible linkage between cinnamate and PHM in the inactivated enzyme. Our data support the reversible formation of a Michael adduct between an active site nucleophile and cinnamate that leads to inactive enzyme. Our data are of significance given that cinnamates are found in foods, perfumes, cosmetics and pharmaceuticals.
肽基甘氨酸α-酰胺化单加氧酶(PAM)是一种双功能酶,催化α-酰胺化肽激素成熟过程中的最后一步反应。肽基甘氨酸α-羟化单加氧酶(PHM)是PAM的一个结构域,负责对含甘氨酸延伸肽进行铜、抗坏血酸和氧气依赖性的羟基化反应。肽基酰胺基乙醇酸裂解酶是PAM的一个结构域,负责将含α-羟基甘氨酸的前体进行锌(II)依赖性脱烷基化反应,生成最终的α-酰胺化肽。我们在此报告,肉桂酸及其类似物是PHM的抑制剂或失活剂。肉桂酸盐所表现出的失活化学性质具有自杀底物的所有特征。然而,我们没有发现失活酶中肉桂酸盐与PHM之间形成不可逆连接的证据。我们的数据支持活性位点亲核试剂与肉桂酸盐之间可逆地形成迈克尔加成物,从而导致酶失活。鉴于肉桂酸盐存在于食品、香水、化妆品和药品中,我们的数据具有重要意义。