Open AccessDOI
Modification of Glyceraldehyde-3-Phosphate Dehydrogenase with Nitric Oxide: Role in Signal Transduction and Development of Apoptosis.
Vladimir I. Muronetz,Maria Medvedeva,Irina A. Sevostyanova,Elena V. Schmalhausen +3 more
- Vol. 11, Iss: 11, pp 1656
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TLDR
In this paper, a review on the consequences of GAPDH S-nitrosylation at the catalytic cysteine residue is presented, where the authors conclude that there is no direct confirmation of the interaction between the tetrameric GAPPH and Siah1 caused by SnitroSylation of GAPH.Abstract:
This review focuses on the consequences of GAPDH S-nitrosylation at the catalytic cysteine residue. The widespread hypothesis according to which S-nitrosylation causes a change in GAPDH structure and its subsequent binding to the Siah1 protein is considered in detail. It is assumed that the GAPDH complex with Siah1 is transported to the nucleus by carrier proteins, interacts with nuclear proteins, and induces apoptosis. However, there are several conflicting and unproven elements in this hypothesis. In particular, there is no direct confirmation of the interaction between the tetrameric GAPDH and Siah1 caused by S-nitrosylation of GAPDH. The question remains as to whether the translocation of GAPDH into the nucleus is caused by S-nitrosylation or by some other modification of the catalytic cysteine residue. The hypothesis of the induction of apoptosis by oxidation of GAPDH is considered. This oxidation leads to a release of the coenzyme NAD+ from the active center of GAPDH, followed by the dissociation of the tetramer into subunits, which move to the nucleus due to passive transport and induce apoptosis. In conclusion, the main tasks are summarized, the solutions to which will make it possible to more definitively establish the role of nitric oxide in the induction of apoptosis.read more
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Antihyperglycemic activity of L-norvaline and L-arginine in high-fat diet and streptozotocin-treated male rats.
TL;DR: In this article , the antihyperglycemic properties of arginase inhibition via L-norvaline and its combination with NOS substrate supplementation (via L-arginine) were studied.
Journal ArticleDOI
Mechanism of GAPDH Redox Signaling by H2O2 Activation of a Two−Cysteine Switch
Paul A. Hyslop,Michael O. Chaney +1 more
TL;DR: The low−temperature stability of the H2O2−oxidized subunit conformer provides an operable framework to study mechanisms associated with gain−of−function activities of oxidized GAPDH to identify novel targets for the treatment of neurodegenerative diseases.
Journal ArticleDOI
S-Glutathionylation and S-Nitrosylation in Mitochondria: Focus on Homeostasis and Neurodegenerative Diseases
Sofia Vrettou,Brunhilde Wirth +1 more
TL;DR: In this paper , the authors discuss how S-glutathionylation and S-nitrosylation interfere in mitochondrial homeostasis and how the deregulation of these modifications is associated with Alzheimer's, Parkinson's, amyotrophic lateral sclerosis and Friedreich's ataxia.
Journal ArticleDOI
Expanding roles for S-nitrosylation in the regulation of plant immunity.
TL;DR: In this article , the authors bring together recent advances in the control of plant immunity by S-nitrosylation, furthering their appreciation of how changes in cellular redox status reprogramme plant immune function.
Journal ArticleDOI
AMP-activated protein kinase-dependent nuclear localization of glyceraldehyde 3-phosphate dehydrogenase in senescent human diploid fibroblasts
TL;DR: Increased AMPK activity may play a role in the senescence-associated nuclear translocation of GAPDH in senescent cells.
References
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Journal ArticleDOI
Protein S-nitrosylation: purview and parameters.
Douglas T. Hess,Akio Matsumoto,Sung Oog Kim,Harvey E. Marshall,Jonathan S. Stamler,Jonathan S. Stamler +5 more
TL;DR: S-nitrosylation conveys a large part of the ubiquitous influence of nitric oxide on cellular signal transduction, and provides a mechanism for redox-based physiological regulation.
Journal ArticleDOI
Protein S-nitrosylation: a physiological signal for neuronal nitric oxide.
Samie R. Jaffrey,Hediye Erdjument-Bromage,Christopher D. Ferris,Paul Tempst,Solomon H. Snyder +4 more
TL;DR: Protein S-nitrosylation is established as a physiological signalling mechanism for neuronally generated NO in mice harbouring a genomic deletion of neuronal NO synthase (nNOS).
Journal ArticleDOI
S-nitrosylated GAPDH initiates apoptotic cell death by nuclear translocation following Siah1 binding
Makoto R. Hara,Nishant Agrawal,Sangwon F. Kim,Matthew B. Cascio,Masahiro Fujimuro,Yuji Ozeki,Masaaki Takahashi,Jaime H. Cheah,Stephanie Tankou,Lynda D. Hester,Christopher D. Ferris,S. Diane Hayward,Solomon H. Snyder,Akira Sawa +13 more
TL;DR: A signalling pathway in which nitric oxide generation that follows apoptotic stimulation elicits S-nitrosylation of GAPDH, which triggers binding to Siah1 (an E3 ubiquitin ligase), nuclear translocation and apoptosis, which is prevented by NO deletion is reported.
Journal ArticleDOI
Protein S-nitrosylation in health and disease: a current perspective
TL;DR: Recent findings that implicate S-nitrosylation in cardiovascular, pulmonary, musculoskeletal and neurological (dys)function, as well as in cancer are reviewed.
Journal ArticleDOI
Nitric oxide-induced nuclear GAPDH activates p300/CBP and mediates apoptosis
Nilkantha Sen,Makoto R. Hara,Makoto R. Hara,Michael D. Kornberg,Matthew B. Cascio,Byoung-Il Bae,Neelam Shahani,Bobby Thomas,Ted M. Dawson,Valina L. Dawson,Solomon H. Snyder,Akira Sawa +11 more
TL;DR: It is shown that nuclear GAPDH is acetylated at Lys 160 by the acetyltransferase p300/CREB binding protein (CBP) through direct protein interaction, which in turn stimulates the acetolation and catalytic activity of p 300/CBP.