HIV-1 Nef Targets HDAC6 to Assure Viral Production and Virus Infection.
Date
2019Abstract
HIV Nef is a central auxiliary protein in HIV infection and pathogenesis. Our results
indicate that HDAC6 promotes the aggresome/autophagic degradation of the viral
polyprotein Pr55Gag to inhibit HIV-1 production. Nef counteracts this antiviral activity
of HDAC6 by inducing its degradation and subsequently stabilizing Pr55Gag and Vif
viral proteins. Nef appears to neutralize HDAC6 by an acidic/endosomal-lysosomal
processing and does not need the downregulation function, since data obtained with
the non-associated cell-surface Nef-G2A mutant – the cytoplasmic location of HDAC6 –
together with studies with chemical inhibitors and other Nef mutants, point to this
direction. Hence, the polyproline rich region P72xxP75 (69–77 aa) and the di-Leucin
motif in the Nef-ExxxLL160-165 sequence of Nef, appear to be responsible for HDAC6
clearance and, therefore, required for this novel Nef proviral function. Nef and NefG2A co-immunoprecipitate with HDAC6, whereas the Nef-PPAA mutant showed a
reduced interaction with the anti-HIV-1 enzyme. Thus, the P72xxP75 motif appears to
be responsible, directly or indirectly, for the interaction of Nef with HDAC6. Remarkably,
by neutralizing HDAC6, Nef assures Pr55Gag location and aggregation at plasma
membrane, as observed by TIRFM, promotes viral egress, and enhances the infectivity
of viral particles. Consequently, our results suggest that HDAC6 acts as an anti-HIV-1
restriction factor, limiting viral production and infection by targeting Pr55Gag and Vif.
This function is counteracted by functional HIV-1 Nef, in order to assure viral production
and infection capacities. The interplay between HIV-1 Nef and cellular HDAC6 may
determine viral infection and pathogenesis, representing both molecules as key targets
to battling HIV