Selective degradation of oxidatively modified protein substrates by the proteasome

Oxidative stress in mammalian cells is an inevitable consequence of their aerobic metabolism. Oxidants produce modifications to proteins leading to loss of function (or gain of undesirable function) and very often to an enhanced degradation of the oxidized proteins. For several years it has been kno...

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Veröffentlicht in:	Biochemical and biophysical research communications 2003-06, Vol.305 (3), p.709-718
Hauptverfasser:	Grune, Tilman, Merker, Katrin, Sandig, Grit, Davies, Kelvin J.A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Calpains Cysteine Endopeptidases - metabolism Free radicals Lysosomes Multienzyme Complexes - metabolism Oxidation-Reduction Oxidative Stress Proteasome Proteasome Endopeptidase Complex Protein oxidation Proteins - metabolism Proteolysis Substrate Specificity
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container_title	Biochemical and biophysical research communications
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creator	Grune, Tilman Merker, Katrin Sandig, Grit Davies, Kelvin J.A.
description	Oxidative stress in mammalian cells is an inevitable consequence of their aerobic metabolism. Oxidants produce modifications to proteins leading to loss of function (or gain of undesirable function) and very often to an enhanced degradation of the oxidized proteins. For several years it has been known that the proteasome is involved in the degradation of oxidized proteins. This review summarizes our knowledge about the recognition of oxidized protein substrates by the proteasome in in vitro systems and its applicability to living cells. The majority of studies in the field agree that the degradation of mildly oxidized proteins is an important function of the proteasomal system. The major recognition motif of the substrates seems to be hydrophobic surface patches that are recognized by the 20S ‘core’ proteasome. Such hydrophobic surface patches are formed by partial unfolding and exposure of hydrophobic amino acid residues during oxidation. Oxidized proteins appear to be relatively poor substrates for ubiquitination, and the ubiquitination system does not seem to be involved in the recognition or targeting of oxidized proteins. Heavily oxidized proteins appear to first aggregate (new hydrophobic and ionic bonds) and then to form covalent cross-links that make them highly resistant to proteolysis. The inability to degrade extensively oxidized proteins may contribute to the accumulation of protein aggregates during diseases and the aging process.
doi_str_mv	10.1016/S0006-291X(03)00809-X
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Oxidants produce modifications to proteins leading to loss of function (or gain of undesirable function) and very often to an enhanced degradation of the oxidized proteins. For several years it has been known that the proteasome is involved in the degradation of oxidized proteins. This review summarizes our knowledge about the recognition of oxidized protein substrates by the proteasome in in vitro systems and its applicability to living cells. The majority of studies in the field agree that the degradation of mildly oxidized proteins is an important function of the proteasomal system. The major recognition motif of the substrates seems to be hydrophobic surface patches that are recognized by the 20S ‘core’ proteasome. Such hydrophobic surface patches are formed by partial unfolding and exposure of hydrophobic amino acid residues during oxidation. 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Oxidants produce modifications to proteins leading to loss of function (or gain of undesirable function) and very often to an enhanced degradation of the oxidized proteins. For several years it has been known that the proteasome is involved in the degradation of oxidized proteins. This review summarizes our knowledge about the recognition of oxidized protein substrates by the proteasome in in vitro systems and its applicability to living cells. The majority of studies in the field agree that the degradation of mildly oxidized proteins is an important function of the proteasomal system. The major recognition motif of the substrates seems to be hydrophobic surface patches that are recognized by the 20S ‘core’ proteasome. Such hydrophobic surface patches are formed by partial unfolding and exposure of hydrophobic amino acid residues during oxidation. 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subjects	Animals Calpains Cysteine Endopeptidases - metabolism Free radicals Lysosomes Multienzyme Complexes - metabolism Oxidation-Reduction Oxidative Stress Proteasome Proteasome Endopeptidase Complex Protein oxidation Proteins - metabolism Proteolysis Substrate Specificity
title	Selective degradation of oxidatively modified protein substrates by the proteasome
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