Control of cellular Bcl-xL levels by deamidation-regulated degradation

The cellular concentration of Bcl-xL is among the most important determinants of treatment response and overall prognosis in a broad range of tumors as well as an important determinant of the cellular response to several forms of tissue injury. We and others have previously shown that human Bcl-xL u...

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Veröffentlicht in:	PLoS biology 2013, Vol.11 (6), p.e1001588-e1001588
Hauptverfasser:	Dho, So Hee, Deverman, Benjamin E, Lapid, Carlo, Manson, Scott R, Gan, Lu, Riehm, Jacob J, Aurora, Rajeev, Kwon, Ki-Sun, Weintraub, Steven J
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Sprache:	eng
Schlagworte:	Amides - metabolism Amino Acid Sequence Animals Apoptosis bcl-X Protein - chemistry bcl-X Protein - metabolism Biology Calpain - metabolism Cell Line Conserved Sequence DNA Damage Humans Hydrogen-Ion Concentration Medicine Mice Molecular Sequence Data Phosphorylation Protein Structure, Tertiary Proteins Proteolysis Rodents Thyroid cancer Tumors
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description	The cellular concentration of Bcl-xL is among the most important determinants of treatment response and overall prognosis in a broad range of tumors as well as an important determinant of the cellular response to several forms of tissue injury. We and others have previously shown that human Bcl-xL undergoes deamidation at two asparaginyl residues and that DNA-damaging antineoplastic agents as well as other stimuli can increase the rate of deamidation. Deamidation results in the replacement of asparginyl residues with aspartyl or isoaspartyl residues. Thus deamidation, like phosphorylation, introduces a negative charge into proteins. Here we show that the level of human Bcl-xL is constantly modulated by deamidation because deamidation, like phosphorylation in other proteins, activates a conditional PEST sequence to target Bcl-xL for degradation. Additionally, we show that degradation of deamidated Bcl-xL is mediated at least in part by calpain. Notably, we present sequence and biochemical data that suggest that deamidation has been conserved from the simplest extant metazoans through the human form of Bcl-xL, underscoring its importance in Bcl-xL regulation. Our findings strongly suggest that deamidation-regulated Bcl-xL degradation is an important component of the cellular rheostat that determines susceptibility to DNA-damaging agents and other death stimuli.
doi_str_mv	10.1371/journal.pbio.1001588
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We and others have previously shown that human Bcl-xL undergoes deamidation at two asparaginyl residues and that DNA-damaging antineoplastic agents as well as other stimuli can increase the rate of deamidation. Deamidation results in the replacement of asparginyl residues with aspartyl or isoaspartyl residues. Thus deamidation, like phosphorylation, introduces a negative charge into proteins. Here we show that the level of human Bcl-xL is constantly modulated by deamidation because deamidation, like phosphorylation in other proteins, activates a conditional PEST sequence to target Bcl-xL for degradation. Additionally, we show that degradation of deamidated Bcl-xL is mediated at least in part by calpain. Notably, we present sequence and biochemical data that suggest that deamidation has been conserved from the simplest extant metazoans through the human form of Bcl-xL, underscoring its importance in Bcl-xL regulation. 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subjects	Amides - metabolism Amino Acid Sequence Animals Apoptosis bcl-X Protein - chemistry bcl-X Protein - metabolism Biology Calpain - metabolism Cell Line Conserved Sequence DNA Damage Humans Hydrogen-Ion Concentration Medicine Mice Molecular Sequence Data Phosphorylation Protein Structure, Tertiary Proteins Proteolysis Rodents Thyroid cancer Tumors
title	Control of cellular Bcl-xL levels by deamidation-regulated degradation
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