Differential redox potential between the human cytosolic and mitochondrial branched-chain aminotransferase

Differential redox potential between the human cytosolic and mitochondrial branched-chain aminotransferase

The human branched-chain isoenzymes are CXXC motif aminotransferase (hBCAT) redox sensitive homodimers central to glutamate metabolism in the central nervous system. These proteins respond differently to oxidation by H2O2, NO, and S-glutathionylation, suggesting that the redox potential is distinct...

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Veröffentlicht in:Acta biochimica et biophysica Sinica 2012-02, Vol.44 (2), p.172-176
Hauptverfasser: Coles, Steven J., Hancock, John T., Conway, Myra E.
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Motifs
Cytosol - enzymology
Glutathione - metabolism
Glutathione Disulfide - metabolism
Humans
In Vitro Techniques
Minor Histocompatibility Antigens
Mitochondria - enzymology
Oxidation-Reduction
Oxidative Stress
Pregnancy Proteins - chemistry
Pregnancy Proteins - genetics
Pregnancy Proteins - metabolism
Recombinant Proteins - chemistry
Recombinant Proteins - genetics
Recombinant Proteins - metabolism
Transaminases - chemistry
Transaminases - genetics
Transaminases - metabolism
中枢神经系统
支链
氧化还原环境
氧化还原电位
电位差
线粒体
细胞内
转氨酶
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Zusammenfassung:The human branched-chain isoenzymes are CXXC motif aminotransferase (hBCAT) redox sensitive homodimers central to glutamate metabolism in the central nervous system. These proteins respond differently to oxidation by H2O2, NO, and S-glutathionylation, suggesting that the redox potential is distinct between isoenzymes. Using various reduced to oxidized glutathione ratios (GSH:GSSG) to alter the redox environment, we demon- strate that hBCATc (cytosolic) has an overall redox potential that is 30 mV lower than hBCATm (mitochondrial). Furthermore, the CXXC motif of hBCATc was estimated to be 80 mV lower, suggesting that hBCATm is more oxidizing in nature. Western blot analysis revealed close correlations between hBCAT S-glutathionylation and the redox status of the assay environment, offering the hBCAT isoenzymes as novel biomarkers for cytosolic and mitochondrial oxidative stress.
ISSN:1672-9145
1745-7270
DOI:10.1093/abbs/gmr103