A molecular switch modulates assembly and host factor binding of the HIV-1 capsid

The authors use single-particle cryo-EM to analyze the fullerene cone structure of the HIV-1 capsid. They identify a hexamer/pentamer switch that allows for cone assembly and modulates the ligand-binding properties of the capsid. The HIV-1 capsid is a fullerene cone made of quasi-equivalent hexamers and pentamers of the viral CA protein. Typically, quasi-equivalent assembly of viral capsid subunits is controlled by a molecular switch. Here, we identify a Thr-Val-Gly-Gly motif that modulates CA hexamer/pentamer switching by folding into a 3(10) helix in the pentamer and random coil in the hexamer. Manipulating the coil/helix configuration of the motif allowed us to control pentamer and hexamer formation in a predictable manner, thus proving its function as a molecular switch. Importantly, the switch also remodels the common binding site for host factors that are critical for viral replication and the new ultra-potent HIV-1 inhibitor lenacapavir. This study reveals that a critical assembly element also modulates the post-assembly and viral replication functions of the HIV-1 capsid and provides new insights on capsid function and inhibition.

Automated summary

The authors used single-particle cryo-EM to analyze the fullerene cone structure of the HIV-1 capsid. They identified a hexamer/pentamer switch that allows for cone assembly and modulates the ligand-binding properties of the capsid. This study reveals how a critical assembly element modulates the post-assembly and viral replication functions of the HIV-1 capsid and provides new insights on capsid function and inhibition.