Thioltransferase (Glutaredoxin) Is Detected Within HIV-1 and Can Regulate the Activity of Glutathionylated HIV-1 Protease in Vitro

Previous studies have suggested that the two conserved cysteines of the HIV-1 protease may be involved in regulating protease activity. Here, we examined diglutathionylated wild type protease (Cys-67-SSG, Cys-95-SSG) and the monoglutathionylated protease mutants (C67A, Cys-95-SSG and C95A, Cys-67-SS...

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Veröffentlicht in:	The Journal of biological chemistry 1997-10, Vol.272 (41), p.25935-25940
Hauptverfasser:	Davis, David A., Newcomb, Fonda M., Starke, David W., Ott, David E., Mieyal, John J., Yarchoan, Robert
Format:	Artikel
Sprache:	eng
Schlagworte:	AIDS/HIV Blotting, Western Chromatography, High Pressure Liquid Cysteine - metabolism Escherichia coli Glutaredoxins Glutathione - metabolism HIV Protease - metabolism HIV-1 - enzymology Oxidoreductases Proteins - analysis Structure-Activity Relationship Subtilisins - metabolism
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container_title	The Journal of biological chemistry
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creator	Davis, David A. Newcomb, Fonda M. Starke, David W. Ott, David E. Mieyal, John J. Yarchoan, Robert
description	Previous studies have suggested that the two conserved cysteines of the HIV-1 protease may be involved in regulating protease activity. Here, we examined diglutathionylated wild type protease (Cys-67-SSG, Cys-95-SSG) and the monoglutathionylated protease mutants (C67A, Cys-95-SSG and C95A, Cys-67-SSG) as potential substrates for thioltransferase (glutaredoxin). Time-dependent changes in the extent of deglutathionylation of each protein were assayed by reverse phase-high performance liquid chromatography. Glutathione alone was not an effective reductant, whereas thioltransferase displayed differential catalysis toward the Cys-95-SSG and Cys-67-SSG sites. At low thioltransferase concentrations (5 nm), deglutathionylation occurred almost exclusively at Cys-95-SSG. With substantially more thioltransferase (100 nm) Cys-67-SSG was partially deglutathionylated but only at 20% of the rate of Cys-95-SSG reduction. Treatment of the diglutathionylated protease with thioltransferase not only restored protease activity but generated an enzyme preparation that had a 3- to 5-fold greater specific activity relative to the fully reduced form. Immunoblot analysis of HIV-1MN virus with an antibody to thioltransferase detected a band co-migrating with recombinant thioltransferase that persisted following subtilisin treatment, indicating the presence of thioltransferase within HIV-1. Our results implicate thioltransferase in the regulation and/or maintenance of protease activity in HIV-1 infected cells.
doi_str_mv	10.1074/jbc.272.41.25935
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Here, we examined diglutathionylated wild type protease (Cys-67-SSG, Cys-95-SSG) and the monoglutathionylated protease mutants (C67A, Cys-95-SSG and C95A, Cys-67-SSG) as potential substrates for thioltransferase (glutaredoxin). Time-dependent changes in the extent of deglutathionylation of each protein were assayed by reverse phase-high performance liquid chromatography. Glutathione alone was not an effective reductant, whereas thioltransferase displayed differential catalysis toward the Cys-95-SSG and Cys-67-SSG sites. At low thioltransferase concentrations (5 nm), deglutathionylation occurred almost exclusively at Cys-95-SSG. With substantially more thioltransferase (100 nm) Cys-67-SSG was partially deglutathionylated but only at 20% of the rate of Cys-95-SSG reduction. Treatment of the diglutathionylated protease with thioltransferase not only restored protease activity but generated an enzyme preparation that had a 3- to 5-fold greater specific activity relative to the fully reduced form. Immunoblot analysis of HIV-1MN virus with an antibody to thioltransferase detected a band co-migrating with recombinant thioltransferase that persisted following subtilisin treatment, indicating the presence of thioltransferase within HIV-1. 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Treatment of the diglutathionylated protease with thioltransferase not only restored protease activity but generated an enzyme preparation that had a 3- to 5-fold greater specific activity relative to the fully reduced form. Immunoblot analysis of HIV-1MN virus with an antibody to thioltransferase detected a band co-migrating with recombinant thioltransferase that persisted following subtilisin treatment, indicating the presence of thioltransferase within HIV-1. 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subjects	AIDS/HIV Blotting, Western Chromatography, High Pressure Liquid Cysteine - metabolism Escherichia coli Glutaredoxins Glutathione - metabolism HIV Protease - metabolism HIV-1 - enzymology Oxidoreductases Proteins - analysis Structure-Activity Relationship Subtilisins - metabolism
title	Thioltransferase (Glutaredoxin) Is Detected Within HIV-1 and Can Regulate the Activity of Glutathionylated HIV-1 Protease in Vitro
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