可逆性硫醇氧化抑制卵母细胞中的线粒体ATP合酶。

Reversible Thiol Oxidation Inhibits the Mitochondrial ATP Synthase in Oocytes.

作者信息

Cobley James, Noble Anna, Bessell Rachel, Guille Matthew, Husi Holger

机构信息

Centre for Health Sciences, University of the Highlands and Islands, Inverness IV2 3JH, UK.

School of Biological Sciences, European Xenopus Resource Centre, University of Portsmouth, King Henry Building, Portsmouth PO1 2DY, UK.

出版信息

Antioxidants (Basel). 2020 Mar 5;9(3):215. doi: 10.3390/antiox9030215.

DOI:10.3390/antiox9030215

PMID:32150908

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7139892/

Abstract

Oocytes are postulated to repress the proton pumps (e.g., complex IV) and ATP synthase to safeguard mitochondrial DNA homoplasmy by curtailing superoxide production. Whether the ATP synthase is inhibited is, however, unknown. Here we show that: oligomycin sensitive ATP synthase activity is significantly greater (170 vs. 20 nmol/min/mg) in testes compared to oocytes in (). Since ATP synthase activity is redox regulated, we explored a regulatory role for reversible thiol oxidation. If a protein thiol inhibits the ATP synthase, then constituent subunits must be reversibly oxidised. Catalyst-free -cyclooctene 6-methyltetrazine (TCO-Tz) immunocapture coupled to redox affinity blotting reveals several subunits in F (e.g., ATP-α-F) and F (e.g., subunit c) are reversibly oxidised. Catalyst-free TCO-Tz Click PEGylation reveals significant (60%) reversible ATP-α-F oxidation at two evolutionary conserved cysteine residues (C and C) in oocytes. TCO-Tz Click PEGylation reveals ~20% of the total thiols in the ATP synthase are substantially oxidised. Chemically reversing thiol oxidation significantly increased oligomycin sensitive ATP synthase activity from ~12 to 100 nmol/min/mg in oocytes. We conclude that reversible thiol oxidation inhibits the mitochondrial ATP synthase in oocytes.

摘要

卵母细胞被认为通过减少超氧化物的产生来抑制质子泵（如复合物IV）和ATP合酶，以保障线粒体DNA的同质性。然而，ATP合酶是否被抑制尚不清楚。在这里我们表明：在（）中，与卵母细胞相比，睾丸中的寡霉素敏感型ATP合酶活性显著更高（170对20 nmol/min/mg）。由于ATP合酶活性受氧化还原调节，我们探讨了可逆硫醇氧化的调节作用。如果蛋白质硫醇抑制ATP合酶，那么组成亚基必须被可逆氧化。无催化剂的 -环辛烯6-甲基四嗪（TCO-Tz）免疫捕获结合氧化还原亲和印迹显示F中的几个亚基（如ATP-α-F）和F中的几个亚基（如亚基c）被可逆氧化。无催化剂的TCO-Tz点击聚乙二醇化显示卵母细胞中两个进化保守的半胱氨酸残基（C和C）处有显著的（60%）可逆ATP-α-F氧化。TCO-Tz点击聚乙二醇化显示ATP合酶中约20%的总硫醇被大量氧化。化学逆转硫醇氧化显著提高了卵母细胞中寡霉素敏感型ATP合酶的活性，从~12提高到100 nmol/min/mg。我们得出结论，可逆硫醇氧化抑制了卵母细胞中的线粒体ATP合酶。

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可逆性硫醇氧化抑制卵母细胞中的线粒体ATP合酶。

Reversible Thiol Oxidation Inhibits the Mitochondrial ATP Synthase in Oocytes.

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