Virus Hijacks Host Proteins and Machinery for Assembly and Budding, with HIV-1 as an Example

Viral assembly and budding are the final steps and key determinants of the virus life cycle and are regulated by virus-host interaction. Several viruses are known to use their late assembly (L) domains to hijack host machinery and cellular adaptors to be used for the requirement of virus replication. The L domains are highly conserved short sequences whose mutation or deletion may lead to the accumulation of immature virions at the plasma membrane. The L domains were firstly identified within retroviral Gag polyprotein and later detected in structural proteins of many other enveloped RNA viruses. Here, we used HIV-1 as an example to describe how the HIV-1 virus hijacks ESCRT membrane fission machinery to facilitate virion assembly and release. We also introduce galectin-3, a chimera type of the galectin family that is up-regulated by HIV-1 during infection and further used to promote HIV-1 assembly and budding via the stabilization of Alix-Gag interaction. It is worth further dissecting the details and finetuning the regulatory mechanism, as well as identifying novel candidates involved in this final step of replication cycle.

Automated summary

Viral assembly and budding are the final and crucial steps of the virus life cycle, regulated by virus-host interaction. Many viruses exploit their late assembly (L) domains to manipulate host machinery for replication.