通过对磷脂氢过氧化物谷胱甘肽过氧化物酶(PHGPx)的突变分析,探索含硒过氧化物酶的催化三元组。

M Maiorino, K D Aumann, R Brigelius-Flohé, D Doria, J van den Heuvel, J McCarthy, A Roveri, F Ursini, L Flohé
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引用次数: 231

摘要

影响硒酶PHGPx催化中心的单位点和双位点突变体进行了功能分析。测定了基态酶的氧化速率常数k+1和再生速率常数k'+2。此外,还分析了碘乙酸(kinact)对反应中心的烷基化速率。半胱氨酸(PHGPxcys46)取代了具有催化能力的硒代半胱氨酸46,使k+1和k'+2降低了约3个数量级,但没有产生任何影响。此外,phgpxys46的突变涉及三联体的其他残基,从而降低了两者的相互作用。和k+1,从而突出了Gln 81和Trp 136参与亲核半胱氨酸硫醇的解离/激活。一般来说,phgpxys46中酸性残基取代Gln 81或Trp 136最显著地降低了k+1值,因为它们实际上阻止了硫醇基团的解离,而这些位置的中性或带正电的残基允许中间解离并诱导相应的硫醇反应活性。我们的数据首次揭示了硒代半胱氨酸、谷氨酰胺和色氨酸残基的假定三联体代表了一种新型的催化中心,其完整性对于谷胱甘肽过氧化物酶的充分催化功能至关重要。
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Probing the presumed catalytic triad of selenium-containing peroxidases by mutational analysis of phospholipid hydroperoxide glutathione peroxidase (PHGPx).

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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