In vivo inactivation of Nef ITAM motif of chimeric simian/human immunodeficiency virus SHIVsbg-YE correlates with absence of increased virulence in chinese rhesus macaques

AbstractSHIVsbg, expressing Vpu, Tat, Rev, and Env proteins of HIV-1 Lai, was shown to be infectious for rhesus macaques. In this study, we mutated SHIVsbg Nef amino acids 17–18 from RQ to YE, conferring to SHIVsbg-YE the ability to replicate in vitro in unstimulated macaque PBMC. Juvenile macaques inoculated intravenously or orally with SHIVsbg-YE developed persistent infection. All macaques lost weight during the first 17 weeks but recovered afterward. All animals developed a strong HIV-specific humoral immune response. Viruses isolated 2 years postinoculation lost the ability to replicate in unstimulated macaque PBMC. Point mutations or 33-bp-wide deletions in the nef ITAM motif were responsible for this phenotype and correlated with clinical improvement of the infected macaques. These data demonstrate that the ITAM domain is inactivated in animals developing an acute antiviral immune response and may be detrimental to viral replication, perhaps by interfering with other well-conserved functions of SIV Nef protein

Targeting the dimerization initiation site of HIV-1 RNA with aminoglycosides: from crystal to cell

The kissing-loop complex that initiates dimerization of genomic RNA is crucial for Human Immunodeficiency Virus Type 1 (HIV-1) replication. We showed that owing to its strong similitude with the bacterial ribosomal A site it can be targeted by aminoglycosides. Here, we present its crystal structure in complex with neamine, ribostamycin, neomycin and lividomycin. These structures explain the specificity for 4,5-disubstituted 2-deoxystreptamine (DOS) derivatives and for subtype A and subtype F kissing-loop complexes, and provide a strong basis for rational drug design. As a consequence of the different topologies of the kissing-loop complex and the A site, these aminoglycosides establish more contacts with HIV-1 RNA than with 16S RNA. Together with biochemical experiments, they showed that while rings I, II and III confer binding specificity, rings IV and V are important for affinity. Binding of neomycin, paromomycin and lividomycin strongly stabilized the kissing-loop complex by bridging the two HIV-1 RNA molecules. Furthermore, in situ footprinting showed that the dimerization initiation site (DIS) of HIV-1 genomic RNA could be targeted by these aminoglycosides in infected cells and virions, demonstrating its accessibility

Limited Viral Spread and Rapid Immune Response in Lymph Nodes of Macaques Inoculated with Attenuated Simian Immunodeficiency Virus

AbstractA comparative study was undertaken to characterize the very early events that distinguish attenuated and pathogenic simian immunodeficiency virus (SIV) infections. Three rhesus macaques were inoculated with the attenuated SIVmac 251 Δnef virus, and three others with a virus of intermediate phenotype, SIVmac 239 nef stop. They were compared to four macaques inoculated with the pathogenic SIVmac 251 isolate. Lymph nodes (LN) taken between 7 days and 2 months postinoculation were analyzed for SIV expression byin situhybridization. During acute infection, SIV 251 Δnef infected 1 to 1.5 log10fewer cells in LN tissue than the pathogenic SIV 251 isolate. The reduction was more marked in the blood, as SIV 251 Δnef infected 2 to 3 log10fewer PBMC than the isolate and did not yield detectable antigenemia. Morphometric measurements showed that the development of germinal centers (GC) was more rapid in the Δnef infection, which led to a more efficient trapping of viral particles, and could account for antigenemia clearance. The SIV 239 nef stop clone reverted to a nef+genotype at Week 2, but induced a lower viral burden than a directly pathogenic virus. The kinetics of GC development was rapid, indicating that SIV 239 nef stop induced an immune response similar to that seen in attenuated infection. This study provides evidence that attenuated SIV elicits a more rapid immune response than pathogenic SIV and suggests that an early immunosuppressive episode may facilitate the dissemination of pathogenic SIV

8-modified-2\u27-deoxyadenosine analogues induce delayed polymerization arrest during HIV-1 reverse transcription

The occurrence of resistant viruses to any of the anti-HIV-1 compounds used in the current therapies against AIDS underlies the urge for the development of new drug targets and/or new drugs acting through novel mechanisms. While all anti-HIV-1 nucleoside analogues in clinical use and in clinical trials rely on ribose modifications for activity, we designed nucleosides with a natural deoxyribose moiety and modifications of position 8 of the adenine base. Such modifications might induce a steric clash with helix &alpha;H in the thumb domain of the p66 subunit of HIV-1 RT at a distance from the catalytic site, causing delayed chain termination. Eleven new 2&prime;-deoxyadenosine analogues modified on position 8 of the purine base were synthesized and tested in vitro and in cell-based assays. In this paper we demonstrate for the first time that chemical modifications on position 8 of 2&prime;-deoxyadenosine induce delayed chain termination in vitro, and also inhibit DNA synthesis when incorporated in a DNA template strand. Furthermore, one of them had moderate anti-HIV-1 activity in cell-culture. Our results constitute a proof of concept indicating that modification on the base moiety of nucleosides can induce delayed polymerization arrest and inhibit HIV-1 replication.<br /

Musée et collections sous le protocole de Nagoya

International audienc

Musée et collections sous le protocole de Nagoya

International audienc

Nef, protéine multifonctionnelle des lentivirus de primates (Aspects moléculaires de la dérégulation de l'expression de surface du CD4)

STRASBOURG-Sc. et Techniques (674822102) / SudocSudocFranceF

LA PROTEINE NEF DU VIRUS DE L'IMMUNODEFICIENCE HUMAINE (SIMILITUDE AVEC NEF SIMIEN ; INTERACTION AVEC LA PROTEINE VPU)

STRASBOURG-Sc. et Techniques (674822102) / SudocSudocFranceF

La biopiraterie, le droit et les valeurs. À propos des fondements idéologiques du partage des ressources

National audienc