HIV-1 evasion of restriction factors: cyclophilin A and cell fusion provide a helping hand.

Retroviral restriction factors are important regulators of viral infection, targeting vulnerable steps of the virus lifecycle; steps that are also targeted by antiviral drugs. It has become clear that the route of cellular infection can alter the sensitivity of HIV-1 to these agents. Using CRISPR-Cas9 edited pluripotent stem cell-derived macrophages, we have explored the potential of a modified restriction factor (human TRIMCyp) to inhibit HIV-1 replication in both cell free and cell-cell infection models. We show that the expression of TRIMCyp from the endogenous TRIM5α locus potently restricts infection by cell-free HIV-1. Our results also show the importance of the human cyclophilin A-HIV-1 capsid interaction for viral escape from restriction by native human TRIM5α, highlighting the evolutionary interplay between virus and this host restriction factor. However, when co-cultured with infected T cells, stem cell-derived macrophages are primarily infected by fusion between the cells. We have termed infected cells that result from these fusions heterocytia, and show that their formation overcomes multiple restriction factors and the reverse transcriptase inhibitor AZT.