Abstract

Human cytidine deaminase apolipoprotein B mRNA-editing catalytic polypeptide-like 3 (APOBEC3) proteins have been classified as either Z1- or Z2-type cytidine deaminases on the basis of phylogenetic analysis of their catalytic domains. Despite the identification of a number of Z1-type domain-containing cytidine deaminases, only one copy of Z2-type cytidine deaminase has been detected in each of the mammalian species evaluated thus far. Z1-type human APOBEC3 proteins are known to exhibit broad activities against diverse retroelements. However, the potential role of the only human Z2-type cytidine deaminase, APOBEC3H (A3H), in the restriction of retroelements has not yet been fully characterized. Here, we demonstrate that human A3H is a potent inhibitor of non-LTR LINE-1 transposition. Interestingly, it was also as efficient as A3G in inhibiting Alu retrotransposition, despite its poor association with Alu RNA. We have further demonstrated, for the first time, that human APOBEC3DE is also a potent inhibitor of Alu retrotransposition. Variants of A3H have divergent antiviral activities against HIV-1-Vif-deficient viruses. Unlike the anti-HIV-1 cytidine deaminases A3G and A3F, A3H is moderately regulated by interferons. These observations suggest that human Z2-type cytidine deaminase A3H variants have varying intrinsic abilities to restrict retroelements and that various APOBEC3 proteins may have evolved distinct inhibitory mechanisms against retroelements.

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