OBJECTIVE: To investigate the mechanisms and spectrum of the anti-HIV activity of chloroquine. DESIGN AND METHODS: MT-4 cells or peripheral blood mononuclear cells were infected with X4, R5 or R5/X4 HIV-1 strains from clades A-E and HIV-2. The cells were then treated with clinically relevant and achievable chloroquine concentrations (i.e. 0-12.5 microM), so as to determine the EC50. The effects of chloroquine on reverse transcription and integration were tested using a replication-defective reporter HIV-1 construct (pRRL.sin.hPGK.GFP). The effects of the drug on the viral envelope were assessed by syncytium assays and immunoprecipitation, using antibodies to different epitopes of gp120. RESULTS: In de-novo infected MT-4 cells, chloroquine selectively inhibited HIV-1 IIIB replication but not pRRL.sin.hPGK.GFP. In chronically HIV-1-infected H9 IIIB cells, chloroquine decreased the infectivity of the newly produced virus and the ability of these cells to form syncytia in co-culture with MT-2 cells. These effects were associated with structural changes in the gp120 glycoprotein, such as a reduction of reactivity with antibodies directed against the glycosylated 2G12 epitope. Although affecting a variable target such as gp120, chloroquine was capable of inhibiting X4, R5 and R5/X4 primary HIV-1 isolates from subtypes A, B, C, D, E and HIV-2. CONCLUSION: At clinically achievable concentrations chloroquine inhibits HIV-1 post-integrationally by affecting newly produced viral envelope glycoproteins, and the drug has broad-spectrum anti-HIV-1 and HIV-2 activity.
OBJECTIVE: To investigate the mechanisms and spectrum of the anti-HIV activity of chloroquine. DESIGN AND METHODS: MT-4 cells or peripheral blood mononuclear cells were infected with X4, R5 or R5/X4 HIV-1 strains from clades A-E and HIV-2. The cells were then treated with clinically relevant and achievable chloroquine concentrations (i.e. 0-12.5 microM), so as to determine the EC50. The effects of chloroquine on reverse transcription and integration were tested using a replication-defective reporter HIV-1 construct (pRRL.sin.hPGK.GFP). The effects of the drug on the viral envelope were assessed by syncytium assays and immunoprecipitation, using antibodies to different epitopes of gp120. RESULTS: In de-novo infected MT-4 cells, chloroquine selectively inhibited HIV-1 IIIB replication but not pRRL.sin.hPGK.GFP. In chronically HIV-1-infected H9 IIIB cells, chloroquine decreased the infectivity of the newly produced virus and the ability of these cells to form syncytia in co-culture with MT-2 cells. These effects were associated with structural changes in the gp120 glycoprotein, such as a reduction of reactivity with antibodies directed against the glycosylated 2G12 epitope. Although affecting a variable target such as gp120, chloroquine was capable of inhibiting X4, R5 and R5/X4 primary HIV-1 isolates from subtypes A, B, C, D, E and HIV-2. CONCLUSION: At clinically achievable concentrations chloroquine inhibits HIV-1 post-integrationally by affecting newly produced viral envelope glycoproteins, and the drug has broad-spectrum anti-HIV-1 and HIV-2 activity.
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