A single amino acid of APOBEC3G controls its species-specific interaction with virion infectivity factor (Vif).

The virion infectivity factor (Vif) accessory protein of HIV-1 forms a complex with the cellular cytidine deaminase APOBEC3G (apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G) to block its antiviral activity. The antiviral property of APOBEC3G is conserved in several mammalian species, but the ability of Vif to block this activity is species-specific. HIV-1 Vif blocks human APOBEC3G but does not block the mouse or African green monkey (AGM) enzyme. Conversely, SIV(AGM) Vif blocks the antiviral activity of AGM but not human APOBEC3G. We demonstrate that the species specificity is caused by a single amino acid difference in APOBEC3G. Replacement of Asp-128 in human APOBEC3G with the Lys-128 of AGM APOBEC3G caused the enzyme to switch its interaction, becoming sensitive to SIV(AGM) Vif and resistant to HIV-1 Vif. Conversely, the reciprocal Lys to Asp switch in AGM APOBEC3G reversed its specificity for Vif. The reversal of biological activity was accompanied by the corresponding switch in the species specificity with which the enzyme physically associated with Vif and was excluded from virions. The charge of the amino acid at position 128 was a critical determinant of species specificity. Based on the crystal structure of the distantly related Escherichia coli cytidine deaminase, we propose that this amino acid is positioned on a solvent-exposed loop of APOBEC3G on the same face of the protein as the catalytic site.