HIV-2 Genome Dimerization is Required for the Correct Processing of Gag: a Second-site Reversion in Matrix Can Restore Both Processes in Dimerization-impaired Mutant Viruses

Overview

Journal J Virol

Publisher American Society for Microbiology

Date 2012 Mar 16

PMID 22419802

Citations 13

Authors

Anne LHernault

Eva U Weiss

Jane S Greatorex

Andrew M Lever

Affiliations

Soon will be listed here.

Abstract

A unique feature of retroviruses is the packaging of two copies of their genome, noncovalently linked at their 5' ends. In vitro, dimerization of human immunodeficiency virus type 2 (HIV-2) RNA occurs by interaction of a self-complementary sequence exposed in the loop of stem-loop 1 (SL-1), also termed the dimer initiation site (DIS). However, in virions, HIV-2 genome dimerization does not depend on the DIS. Instead, a palindrome located within the packaging signal (Psi) is the essential motif for genome dimerization. We reported previously that a mutation within Psi decreasing genome dimerization and packaging also resulted in a reduced proportion of mature particles (A. L'Hernault, J. S. Greatorex, R. A. Crowther, and A. M. Lever, Retrovirology 4:90, 2007). In this study, we investigated further the relationship between HIV-2 genome dimerization, particle maturation, and infectivity by using a series of targeted mutations in SL-1. Our results show that disruption of a purine-rich ((392)-GGAG-(395)) motif within Psi causes a severe reduction in genome dimerization and a replication defect. Maintaining the extended SL-1 structure in combination with the (392)-GGAG-(395) motif enhanced packaging. Unlike that of HIV-1, which can replicate despite mutation of the DIS, HIV-2 replication depends critically on genome dimerization rather than just packaging efficiency. Gag processing was altered in the HIV-2 dimerization mutants, resulting in the accumulation of the MA-CA-p2 processing intermediate and suggesting a link between genome dimerization and particle assembly. Analysis of revertant SL-1 mutant viruses revealed that a compensatory mutation in matrix (70TI) could rescue viral replication and partially restore genome dimerization and Gag processing. Our results are consistent with interdependence between HIV-2 RNA dimerization and the correct proteolytic cleavage of the Gag polyprotein.

Citing Articles

Retroviral RNA Dimerization: From Structure to Functions.

Dubois N, Marquet R, Paillart J, Bernacchi S Front Microbiol. 2018; 9:527.

PMID: 29623074 PMC: 5874298. DOI: 10.3389/fmicb.2018.00527.

An RNA-binding compound that stabilizes the HIV-1 gRNA packaging signal structure and specifically blocks HIV-1 RNA encapsidation.

Ingemarsdotter C, Zeng J, Long Z, Lever A, Kenyon J Retrovirology. 2018; 15(1):25.

PMID: 29540207 PMC: 5853050. DOI: 10.1186/s12977-018-0407-4.

Probing the Structures of Viral RNA Regulatory Elements with SHAPE and Related Methodologies.

Rausch J, Sztuba-Solinska J, Le Grice S Front Microbiol. 2018; 8:2634.

PMID: 29375504 PMC: 5767303. DOI: 10.3389/fmicb.2017.02634.

The Life-Cycle of the HIV-1 Gag-RNA Complex.

Mailler E, Bernacchi S, Marquet R, Paillart J, Vivet-Boudou V, Smyth R Viruses. 2016; 8(9).

PMID: 27626439 PMC: 5035962. DOI: 10.3390/v8090248.

From Cells to Virus Particles: Quantitative Methods to Monitor RNA Packaging.

Ferrer M, Henriet S, Chamontin C, Laine S, Mougel M Viruses. 2016; 8(8).

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