基于过氧化物酶探针实时监测基础 H2O2 水平。

Real-time monitoring of basal H2O2 levels with peroxiredoxin-based probes.

机构信息

Division of Redox Regulation, DKFZ-ZMBH Alliance, German Cancer Research Center (DKFZ), Heidelberg, Germany.

Cellular Biochemistry, University of Kaiserslautern, Kaiserslautern, Germany.

出版信息

Nat Chem Biol. 2016 Jun;12(6):437-43. doi: 10.1038/nchembio.2067. Epub 2016 Apr 18.

DOI:10.1038/nchembio.2067

PMID:27089028

Abstract

Genetically encoded probes based on the H2O2-sensing proteins OxyR and Orp1 have greatly increased the ability to detect elevated H2O2 levels in stimulated or stressed cells. However, these proteins are not sensitive enough to monitor metabolic H2O2 baseline levels. Using yeast as a platform for probe development, we developed two peroxiredoxin-based H2O2 probes, roGFP2-Tsa2ΔCR and roGFP2-Tsa2ΔCPΔCR, that afford such sensitivity. These probes are ∼50% oxidized under 'normal' unstressed conditions and are equally responsive to increases and decreases in H2O2. Hence, they permit fully dynamic, real-time measurement of basal H2O2 levels, with subcellular resolution, in living cells. We demonstrate that expression of these probes does not alter endogenous H2O2 homeostasis. The roGFP2-Tsa2ΔCR probe revealed real-time interplay between basal H2O2 levels and partial oxygen pressure. Furthermore, it exposed asymmetry in H2O2 trafficking between the cytosol and mitochondrial matrix and a strong correlation between matrix H2O2 levels and cellular growth rate.

摘要

基于 H2O2 感应蛋白 OxyR 和 Orp1 的基因编码探针极大地提高了检测刺激或应激细胞中升高的 H2O2 水平的能力。然而，这些蛋白质的灵敏度还不够高，无法监测代谢 H2O2 的基线水平。我们使用酵母作为探针开发的平台，开发了两种基于过氧化物酶的 H2O2 探针，roGFP2-Tsa2ΔCR 和 roGFP2-Tsa2ΔCPΔCR，它们具有这种灵敏度。在“正常”无应激条件下，这些探针有约 50%被氧化，并且对 H2O2 的增加和减少同样敏感。因此，它们允许在活细胞中以亚细胞分辨率，对基础 H2O2 水平进行完全动态、实时的测量。我们证明，这些探针的表达不会改变内源性 H2O2 动态平衡。roGFP2-Tsa2ΔCR 探针实时揭示了基础 H2O2 水平与部分氧分压之间的相互作用。此外，它揭示了细胞质和线粒体基质之间 H2O2 运输的不对称性，以及基质 H2O2 水平与细胞生长速率之间的强相关性。

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基于过氧化物酶探针实时监测基础 H2O2 水平。

Real-time monitoring of basal H2O2 levels with peroxiredoxin-based probes.

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