TriPer, an optical probe tuned to the endoplasmic reticulum

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Authors

Eduardo Pinho Melo, Carlos Lopes, Peter Gollwitzer, Stephan Lortz, Sigurd Lenzen, Ilir Mehmeti, Clemens F Kaminski, David Ron, Edward Avezov

Abstract

The 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.

PMID:28347335 | DOI:10.1186/s12915-017-0367-5

UK DRI Authors

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Prof David Ron

Professor of Cellular Pathophysiology and Clinical Biochemistry, Wellcome Trust Principal Research Fellow

Prof David Ron

Prof Edward Avezov

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Investigating the roles of the endoplasmic reticulum in helping maintain neuronal health, and its role in disease

Prof Edward Avezov

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

Authors

Abstract

UK DRI Authors

Prof David Ron

Prof Edward Avezov