The Interaction of APOBEC3G with Human Immunodeficiency Virus Type 1 Nucleocapsid Inhibits tRNA 3 Lys Annealing to Viral RNA

Abstract

Human immunodeficiency virus type 1 (HIV-1) containing human APOBEC3G (hA3G) has a reduced ability to produce viral DNA in newly infected cells. At least part of this hA3G-facilitated inhibition is due to a cytidine deamination-independent reduction in the ability to initiate reverse transcription. HIV-1 nucleocapsid (NCp7) is required both for the incorporation of hA3G into virions and for the annealing between viral RNA and tRNA₃^Lys, the primer tRNA for reverse transcription. Herein we present evidence that the interaction of hA3G with nucleocapsid is required for the inhibition of reverse transcription initiation. A tRNA₃^Lys priming complex was produced in vitro by the NCp7-facilitated annealing of tRNA₃^Lys to synthetic viral RNA in the absence or presence of hA3G. The effect of hA3G on the annealing of tRNA₃^Lys to viral RNA and the ability of tRNA₃^Lys to initiate reverse transcription was measured. Our results show the following. (i) Electrophoretic band shift and primer binding site assays show that hA3G reduces the annealing of tRNA₃^Lys 44 and 60%, respectively, but does not disrupt the annealed complex once formed. (ii) hA3G inhibits tRNA₃^Lys priming 70 to 80%. (iii) Inhibition of tRNA₃^Lys priming by hA3G requires an interaction between hA3G and NCp7 during annealing. Thus, annealing of tRNA₃^Lys is insensitive to hA3G inhibition when facilitated by a zinc finger mutant of NCp7 unable to interact with hA3G. NCp7-independent annealing of DNA to viral RNA also is insensitive to hA3G inhibition. These results indicate that hA3G does not sterically block tRNA₃^Lys annealing by binding to viral RNA. Annealing and priming are not affected by another RNA binding protein, QKI-6.