Probing the Presumed Catalytic Triad of Selenium-Containing Peroxidases by Mutational Analysis of Phospholipid Hydroperoxide Glutathione Peroxidase (PHGPx)

化学 磷脂过氧化氢谷胱甘肽过氧化物酶 硒代半胱氨酸 半胱氨酸 催化三位一体 硫醇 谷胱甘肽 立体化学 过氧化物酶 色氨酸 生物化学 谷胱甘肽过氧化物酶 活动站点 氨基酸
作者
Matilde Maiorino,Klaus-Dieter Aumann,R. Brigelius‐Flohé,Denise Dória,Joop van den Heuvel,J. Michael McCarthy,Antonella Roveri,Fulvio Ursini,Leopold Flohé
出处
期刊:Biological chemistry Hoppe-Seyler [De Gruyter]
卷期号:376 (11): 651-660 被引量:249
标识
DOI:10.1515/bchm3.1995.376.11.651
摘要

Single and double site mutants affecting the presumed catalytic centre of the selenoenzyme PHGPx were subjected to functional analysis. The rate constants k+1 and k'+2, for the oxidation and the regeneration of the ground state enzyme were estimated, respectively. Moreover, the alkylation rate of the reactive centre by iodoacetate (kinact.) was also analysed. The substitution of the catalytically competent selenocysteine 46 by cysteine (PHGPxcys46) decreased k+1 and k'+2 by about three orders of magnitude, although leaving unaffected kinact.. Furthermore, mutations of PHGPxcys46 involving the other residues of the triad decreased both kinact. and k+1, thus highlighting the involvement of Gln 81 and Trp 136 in the dissociation/activation of the nucleophilic cysteine thiol. In general, substitutions of Gln 81 or Trp 136 by acidic residues in PHGPxcys46 most dramatically depressed the k+1 values, because they practically prevented the dissociation of the thiol group, while neutral or positively charged residues in these positions allowed an intermediate dissociation and induced a corresponding reactivity of the thiol. Our data, for the first time, reveal that the presumed triad of selenocysteine, glutamine and tryptophan residues represents a novel type of catalytic centre, whose integrity is essential for the full catalytic function of glutathione peroxidases.
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