通过氧化还原依赖性伴侣蛋白募集控制寿命。

Lifespan Control by Redox-Dependent Recruitment of Chaperones to Misfolded Proteins.

机构信息

Department of Chemistry and Molecular Biology (CMB), University of Gothenburg, Medicinaregatan 9C, 413 90 Göteborg, Sweden; Institute of Biomedicine, Sahlgrenska Academy, University of Gothenburg, Medicinaregatan 7A, 413 90 Göteborg, Sweden.

Department of Chemistry and Molecular Biology (CMB), University of Gothenburg, Medicinaregatan 9C, 413 90 Göteborg, Sweden.

出版信息

Cell. 2016 Jun 30;166(1):140-51. doi: 10.1016/j.cell.2016.05.006. Epub 2016 Jun 2.

DOI:10.1016/j.cell.2016.05.006

PMID:27264606

Abstract

Caloric restriction (CR) extends the lifespan of flies, worms, and yeast by counteracting age-related oxidation of H2O2-scavenging peroxiredoxins (Prxs). Here, we show that increased dosage of the major cytosolic Prx in yeast, Tsa1, extends lifespan in an Hsp70 chaperone-dependent and CR-independent manner without increasing H2O2 scavenging or genome stability. We found that Tsa1 and Hsp70 physically interact and that hyperoxidation of Tsa1 by H2O2 is required for the recruitment of the Hsp70 chaperones and the Hsp104 disaggregase to misfolded and aggregated proteins during aging, but not heat stress. Tsa1 counteracted the accumulation of ubiquitinated aggregates during aging and the reduction of hyperoxidized Tsa1 by sulfiredoxin facilitated clearance of H2O2-generated aggregates. The data reveal a conceptually new role for H2O2 signaling in proteostasis and lifespan control and shed new light on the selective benefits endowed to eukaryotic peroxiredoxins by their reversible hyperoxidation.

摘要

热量限制（CR）通过对抗与年龄相关的 H2O2 清除过氧化物酶（Prx）的氧化，延长了苍蝇、蠕虫和酵母的寿命。在这里，我们表明，酵母中主要的细胞质 Prx，Tsa1 的剂量增加，以一种不依赖于 Hsp70 伴侣和 CR 的方式延长寿命，而不会增加 H2O2 的清除或基因组稳定性。我们发现 Tsa1 和 Hsp70 物理相互作用，并且 H2O2 对 Tsa1 的过氧化作用是招募 Hsp70 伴侣和 Hsp104 解聚酶到衰老过程中错误折叠和聚集的蛋白质所必需的，但不是热应激。Tsa1 可以对抗衰老过程中泛素化聚集体的积累，并且通过硫氧还蛋白还原过氧化 Tsa1 有助于清除 H2O2 生成的聚集体。这些数据揭示了 H2O2 信号在蛋白质平衡和寿命控制中的一个新概念性作用，并为其可逆过氧化赋予真核过氧化物酶的选择性益处提供了新的见解。

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通过氧化还原依赖性伴侣蛋白募集控制寿命。

Lifespan Control by Redox-Dependent Recruitment of Chaperones to Misfolded Proteins.

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