Cysteine and Glutathione Secretion in Response to Protein Disulfide Bond Formation in the ER
- 12 September 1997
- journal article
- retracted article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 277 (5332) , 1681-1684
- https://doi.org/10.1126/science.277.5332.1681
Abstract
Protein folding in the endoplasmic reticulum (ER) often involves the formation of disulfide bonds. The oxidizing conditions required within this organelle were shown to be maintained through the release of small thiols, mainly cysteine and glutathione. Thiol secretion was stimulated when proteins rich in disulfide bonds were translocated into the ER, and secretion was prevented by the inhibition of protein synthesis. Endogenously generated cysteine and glutathione counteracted thiol-mediated retention in the ER and altered the extracellular redox. The secretion of thiols might link disulfide bond formation in the ER to intra- and intercellular redox signaling.This publication has 22 references indexed in Scilit:
- Stringent thiol‐mediated retention in B lymphocytes and Xenopus oocytes correlates with inefficient IgM polymerizationEuropean Journal of Immunology, 1997
- Exposed Thiols Confer Localization in the Endoplasmic Reticulum by Retention Rather than RetrievalJournal of Biological Chemistry, 1996
- Protein disulphide isomerase: building bridges in protein foldingTrends in Biochemical Sciences, 1994
- The unfolded-protein-response pathway in yeastTrends in Cell Biology, 1994
- Expression of the wild‐type and mutated vacuolar storage protein phaseolin in Xenopus oocytes reveals relationships between assembly and intracellular transportEuropean Journal of Biochemistry, 1991
- Identification of a protein required for disulfide bond formation in vivoPublished by Elsevier ,1991
- Secretion of immunoglobulin M assembly intermediates in the presence of reducing agentsNature, 1990
- Protein transport from endoplasmic reticulum to the Golgi complex can occur during meiotic metaphase in Xenopus oocytes.The Journal of cell biology, 1989
- Reduced temperature prevents transfer of a membrane glycoprotein to the cell surface but does not prevent terminal glycosylationPublished by Elsevier ,1983
- Translation of Xenopus liver messenger RNA in Xenopus oocytes: Vitellogenin synthesis and conversion to yolk platelet proteinsCell, 1976