AI Article Synopsis
- Cellular proteins CPSF6, NUP153, and SEC24C are critical for HIV-1 infection, but how they interact with mature HIV-1 capsid structures is not well understood.
- The study demonstrates that low complexity regions (LCRs) of CPSF6 facilitate strong binding to HIV-1 capsid lattices through specific interactions with hydrophobic pockets on the capsid.
- Additionally, the drug lenacapavir targets these hydrophobic pockets, impairing HIV-1's functionality in the nucleus without displacing the cellular proteins, revealing new mechanisms for virus-host interactions and potential antiviral strategies.
Article Abstract
Cellular proteins CPSF6, NUP153 and SEC24C play crucial roles in HIV-1 infection. While weak interactions of short phenylalanine-glycine (FG) containing peptides with isolated capsid hexamers have been characterized, how these cellular factors functionally engage with biologically relevant mature HIV-1 capsid lattices is unknown. Here we show that prion-like low complexity regions (LCRs) enable avid CPSF6, NUP153 and SEC24C binding to capsid lattices. Structural studies revealed that multivalent CPSF6 assembly is mediated by LCR-LCR interactions, which are templated by binding of CPSF6 FG peptides to a subset of hydrophobic capsid pockets positioned along adjoining hexamers. In infected cells, avid CPSF6 LCR-mediated binding to HIV-1 cores is essential for functional virus-host interactions. The investigational drug lenacapavir accesses unoccupied hydrophobic pockets in the complex to potently impair HIV-1 inside the nucleus without displacing the tightly bound cellular cofactor from virus cores. These results establish previously undescribed mechanisms of virus-host interactions and antiviral action.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9537594 | PMC |
| http://dx.doi.org/10.1038/s41467-022-33662-6 | DOI Listing |
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