SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2076304231> ?p ?o ?g. }

Showing items 1 to 100 of ±116 with 100 items per page.

W2076304231 endingPage "32" @default.
W2076304231 startingPage "27" @default.
W2076304231 abstract "Abstract Although free radicals have been traditionally implicated in cell injury, and associated to pathophysiological processes, recent data implicate them in cell signaling events. Free radicals are naturally occurring oxygen‐, nitrogen‐ and sulfur‐derived species with an unpaired electron, such as superoxide, hydroxyl radical or nitric oxide. In order to assess the role of free radicals in cell signaling, we have studied the modulator effect of oxygen and nitrogen active species on liver methionine adenosyltransferase (MAT), a key metabolic enzyme. The presence of 10 cysteine residues per subunit, makes liver MAT a sensitive target for oxidation/nitrosylation. Here we show that purified MAT from rat liver is nitrosylated and oxidized in vitro. Incubation with H 2 O 2 or the NO donor S‐nitrosylated GSH (GSNO), diminish MAT activity in a dose‐ and time‐dependent manner. Furthermore, the inactivation derived from both oxidation and nitrosylation, was reverted by GSH. MAT inactivation originates on the specific and covalent modification of the sulphydryl group of cysteine residue 121. We also studied how free radicals modulate MAT activity in vivo. It was previously shown that MAT activity is strongly dependent on cellular GSH levels. Generation of oxygen and nitrogen active species in rats by injection of LPS, induced a decrease of liver MAT activity. This effect might derive from nitrosylation and/or oxidation of the enzyme. Modulation of liver MAT by NO is further supported by the inactivation of this enzyme observed in experimental models in which NO is produced; such as the administration of NO donors to rats and in hepatocytes cultured in hypoxia, a condition that induces the expression of the inducible nitric oxide synthase (iNOS). Oxidation also controls liver MAT activity in a cell environment as shown in CHO cells stably transfected with rat liver MAT cDNA upon addition of H 2 O 2 to the culture medium. This effect depends upon the generation of the hydroxyl radical. On the basis of the metabolic implications of liver MAT, together with the structural features accounting for the sensitivity of this enzyme to active oxygen and nitrogen species, we propose that modulation of MAT by these agents could be a mechanism to regulate the consumption of ATP in the liver, and thus preserve cellular viability under different stress conditions." @default.
W2076304231 created "2016-06-24" @default.
W2076304231 creator A5006711564 @default.
W2076304231 creator A5008532501 @default.
W2076304231 creator A5014481304 @default.
W2076304231 creator A5016577620 @default.
W2076304231 creator A5016683081 @default.
W2076304231 creator A5034410448 @default.
W2076304231 creator A5080765829 @default.
W2076304231 date "1998-01-01" @default.
W2076304231 modified "2023-10-17" @default.
W2076304231 title "Specific interaction of methionine adenosyltransferase with free radicals" @default.
W2076304231 cites W1567096247 @default.
W2076304231 cites W1791153000 @default.
W2076304231 cites W1834041853 @default.
W2076304231 cites W1970252133 @default.
W2076304231 cites W1999748694 @default.
W2076304231 cites W2048569323 @default.
W2076304231 cites W2054534199 @default.
W2076304231 cites W2067254288 @default.
W2076304231 cites W2081480546 @default.
W2076304231 cites W2086948980 @default.
W2076304231 cites W2122325434 @default.
W2076304231 cites W2128215408 @default.
W2076304231 cites W2130933110 @default.
W2076304231 doi "https://doi.org/10.1002/biof.5520080106" @default.
W2076304231 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/9699005" @default.
W2076304231 hasPublicationYear "1998" @default.
W2076304231 type Work @default.
W2076304231 sameAs 2076304231 @default.
W2076304231 citedByCount "38" @default.
W2076304231 countsByYear W20763042312012 @default.
W2076304231 countsByYear W20763042312013 @default.
W2076304231 countsByYear W20763042312014 @default.
W2076304231 countsByYear W20763042312015 @default.
W2076304231 countsByYear W20763042312016 @default.
W2076304231 countsByYear W20763042312017 @default.
W2076304231 countsByYear W20763042312018 @default.
W2076304231 countsByYear W20763042312019 @default.
W2076304231 countsByYear W20763042312021 @default.
W2076304231 countsByYear W20763042312022 @default.
W2076304231 countsByYear W20763042312023 @default.
W2076304231 crossrefType "journal-article" @default.
W2076304231 hasAuthorship W2076304231A5006711564 @default.
W2076304231 hasAuthorship W2076304231A5008532501 @default.
W2076304231 hasAuthorship W2076304231A5014481304 @default.
W2076304231 hasAuthorship W2076304231A5016577620 @default.
W2076304231 hasAuthorship W2076304231A5016683081 @default.
W2076304231 hasAuthorship W2076304231A5034410448 @default.
W2076304231 hasAuthorship W2076304231A5080765829 @default.
W2076304231 hasBestOaLocation W20763042312 @default.
W2076304231 hasConcept C104292427 @default.
W2076304231 hasConcept C104317684 @default.
W2076304231 hasConcept C12554922 @default.
W2076304231 hasConcept C139066938 @default.
W2076304231 hasConcept C150903083 @default.
W2076304231 hasConcept C178790620 @default.
W2076304231 hasConcept C181199279 @default.
W2076304231 hasConcept C185592680 @default.
W2076304231 hasConcept C207001950 @default.
W2076304231 hasConcept C2777553025 @default.
W2076304231 hasConcept C2779201268 @default.
W2076304231 hasConcept C2779525624 @default.
W2076304231 hasConcept C2780912031 @default.
W2076304231 hasConcept C2909420578 @default.
W2076304231 hasConcept C48349386 @default.
W2076304231 hasConcept C515207424 @default.
W2076304231 hasConcept C519581460 @default.
W2076304231 hasConcept C538909803 @default.
W2076304231 hasConcept C55493867 @default.
W2076304231 hasConcept C57600042 @default.
W2076304231 hasConcept C86803240 @default.
W2076304231 hasConceptScore W2076304231C104292427 @default.
W2076304231 hasConceptScore W2076304231C104317684 @default.
W2076304231 hasConceptScore W2076304231C12554922 @default.
W2076304231 hasConceptScore W2076304231C139066938 @default.
W2076304231 hasConceptScore W2076304231C150903083 @default.
W2076304231 hasConceptScore W2076304231C178790620 @default.
W2076304231 hasConceptScore W2076304231C181199279 @default.
W2076304231 hasConceptScore W2076304231C185592680 @default.
W2076304231 hasConceptScore W2076304231C207001950 @default.
W2076304231 hasConceptScore W2076304231C2777553025 @default.
W2076304231 hasConceptScore W2076304231C2779201268 @default.
W2076304231 hasConceptScore W2076304231C2779525624 @default.
W2076304231 hasConceptScore W2076304231C2780912031 @default.
W2076304231 hasConceptScore W2076304231C2909420578 @default.
W2076304231 hasConceptScore W2076304231C48349386 @default.
W2076304231 hasConceptScore W2076304231C515207424 @default.
W2076304231 hasConceptScore W2076304231C519581460 @default.
W2076304231 hasConceptScore W2076304231C538909803 @default.
W2076304231 hasConceptScore W2076304231C55493867 @default.
W2076304231 hasConceptScore W2076304231C57600042 @default.
W2076304231 hasConceptScore W2076304231C86803240 @default.
W2076304231 hasIssue "1-2" @default.
W2076304231 hasLocation W20763042311 @default.
W2076304231 hasLocation W20763042312 @default.
W2076304231 hasLocation W20763042313 @default.
W2076304231 hasOpenAccess W2076304231 @default.