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Literature DB >> 12447467

Key role of succinate dehydrogenase in insulin-induced inactivation of protein tyrosine phosphatases.

Abstract

We studied the role of mitochondria in insulin-induced inactivation of protein tyrosine phosphatases in the liver. The mitochondrial respiratory chain is an insulin-sensitive source of H(2)O(2)that acts as a physiological inhibitor of protein tyrosine phosphatases. Succinate dehydrogenase plays a key role in insulin-stimulated generation of H(2)O(2)and inactivation of liver protein tyrosine phosphatases.

Entities: Chemical Gene

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Year: 2002 PMID： 12447467 DOI： 10.1023/a:1020229724717

Source DB: PubMed Journal: Bull Exp Biol Med ISSN： 0007-4888 Impact factor: 0.804

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Cited

6 in total

Review 1. Manganese neurotoxicity and the role of reactive oxygen species.

Authors: Ebany J Martinez-Finley; Claire E Gavin; Michael Aschner; Thomas E Gunter
Journal: Free Radic Biol Med Date: 2013-02-08 Impact factor: 7.376

2. Dicholine salt of succinic acid, a neuronal insulin sensitizer, ameliorates cognitive deficits in rodent models of normal aging, chronic cerebral hypoperfusion, and beta-amyloid peptide-(25-35)-induced amnesia.

Authors: Zinaida I Storozheva; Andrey T Proshin; Vladimir V Sherstnev; Tatiana P Storozhevykh; Yana E Senilova; Nadezhda A Persiyantseva; Vsevolod G Pinelis; Natalia A Semenova; Elena I Zakharova; Igor A Pomytkin
Journal: BMC Pharmacol Date: 2008-01-23

3. Mitochondrial respiratory chain is involved in insulin-stimulated hydrogen peroxide production and plays an integral role in insulin receptor autophosphorylation in neurons.

Authors: Tatiana P Storozhevykh; Yana E Senilova; Nadezhda A Persiyantseva; Vsevolod G Pinelis; Igor A Pomytkin
Journal: BMC Neurosci Date: 2007-10-08 Impact factor: 3.288

Key role of succinate dehydrogenase in insulin-induced inactivation of protein tyrosine phosphatases.

Review 1. Manganese neurotoxicity and the role of reactive oxygen species.

2. Dicholine salt of succinic acid, a neuronal insulin sensitizer, ameliorates cognitive deficits in rodent models of normal aging, chronic cerebral hypoperfusion, and beta-amyloid peptide-(25-35)-induced amnesia.

3. Mitochondrial respiratory chain is involved in insulin-stimulated hydrogen peroxide production and plays an integral role in insulin receptor autophosphorylation in neurons.

Review 4. Brain Insulin Resistance: Focus on Insulin Receptor-Mitochondria Interactions.

5. H2O2 Signalling Pathway: A Possible Bridge between Insulin Receptor and Mitochondria.

6. Mitochondrial H2O2 as an enable signal for triggering autophosphorylation of insulin receptor in neurons.