Peter Gollwitzer scite author profile

Peter Gollwitzer

2Publications

63Citation Statements Received

69Citation Statements Given

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101

Affiliations

DKFZ-ZMBH Alliance, University of Cambridge, RWTH Aachen University

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TriPer, an optical probe tuned to the endoplasmic reticulum tracks changes in luminal H2O2

et al. 2017

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BackgroundThe fate of hydrogen peroxide (H2O2) in the endoplasmic reticulum (ER) has been inferred indirectly from the activity of ER-localized thiol oxidases and peroxiredoxins, in vitro, and the consequences of their genetic manipulation, in vivo. Over the years hints have suggested that glutathione, puzzlingly abundant in the ER lumen, might have a role in reducing the heavy burden of H2O2 produced by the luminal enzymatic machinery for disulfide bond formation. However, limitations in existing organelle-targeted H2O2 probes have rendered them inert in the thiol-oxidizing ER, precluding experimental follow-up of glutathione’s role in ER H2O2 metabolism.ResultsHere we report on the development of TriPer, a vital optical probe sensitive to changes in the concentration of H2O2 in the thiol-oxidizing environment of the ER. Consistent with the hypothesized contribution of oxidative protein folding to H2O2 production, ER-localized TriPer detected an increase in the luminal H2O2 signal upon induction of pro-insulin (a disulfide-bonded protein of pancreatic β-cells), which was attenuated by the ectopic expression of catalase in the ER lumen. Interfering with glutathione production in the cytosol by buthionine sulfoximine (BSO) or enhancing its localized destruction by expression of the glutathione-degrading enzyme ChaC1 in the lumen of the ER further enhanced the luminal H2O2 signal and eroded β-cell viability.ConclusionsA tri-cysteine system with a single peroxidatic thiol enables H2O2 detection in oxidizing milieux such as that of the ER. Tracking ER H2O2 in live pancreatic β-cells points to a role for glutathione in H2O2 turnover.Electronic supplementary materialThe online version of this article (doi:10.1186/s12915-017-0367-5) contains supplementary material, which is available to authorized users.

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Yap1p, the central regulator of the S. cerevisiae oxidative stress response, is activated by allicin, a natural oxidant and defence substance of garlic

Gruhlke

Schlembach

Leontiev

et al. 2017

Free Radical Biology and Medicine

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