HIV-1 Rev-RRE functional activity in primary isolates is highly dependent on minimal context-dependent changes in Rev.

Godfrey Dzhivhuho, Jordan Holsey, Ethan Honeycutt, Heather O'Farrell, David Rekosh, Marie-Louise Hammarskjold, Patrick E H Jackson

Scientific reports 2022 Nov 01

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During HIV infection, intron-containing viral mRNAs are exported from the cell nucleus to the cytoplasm to complete the replication cycle. Cellular restrictions on the export of incompletely spliced transcripts are overcome by a viral protein, Rev, and an RNA structure found in all unspliced and incompletely spliced viral mRNAs, the Rev Response Element (RRE). Primary HIV isolates display substantial variation in the sequence and functional activity of Rev proteins. We analyzed Rev from two primary isolates with disparate activity that resulted in differences in in vitro fitness of replication-competent viral constructs. The results showed that amino acid differences within the oligomerization domain, but not the arginine-rich motif or the nuclear export signal, determined the level of Rev activity. Two specific amino acid substitutions were sufficient to alter the low-activity Rev to a high-activity phenotype. Other mutations in Rev sequences had unpredictable effects on activity that differed between the two Rev backbones. The sensitivity of Rev function level to small sequence changes likely permits modulation of Rev-RRE activity during HIV infection, which may play a role in pathogenesis. The functional consequences of Rev mutations differed between primary isolates, highlighting the challenge of generalizing studies of Rev conducted using laboratory HIV strains. © 2022. The Author(s).

Citation

Godfrey Dzhivhuho, Jordan Holsey, Ethan Honeycutt, Heather O'Farrell, David Rekosh, Marie-Louise Hammarskjold, Patrick E H Jackson. HIV-1 Rev-RRE functional activity in primary isolates is highly dependent on minimal context-dependent changes in Rev. Scientific reports. 2022 Nov 01;12(1):18416