Lentiviral delivery of short hairpin RNAs protects CD4 T cells from multiple clades and primary isolates of HIV

Viral heterogeneity is a major hurdle for potential therapeutic use of RNA interference (RNAi) against HIV-1. To determine the extent of RNAi tolerance to mutations, we tested 3 viral target sites with differing propensity for mutations: a highly variable rev sequence, a gag sequence conserved only among clade B isolates, and a vif sequence highly conserved across clades. Lentiviral expression of all 3 shRNAs inhibited replication of the homologous HIV(IIIB) strain. However, they differed in their ability to protect primary CD4 T cells against multiple isolates within and across HIV clades. The least conserved rev sequence inhibited only 2 of 5 clade B isolates. The gag sequence (conserved within clade B) protected 5 of 5 clade B isolates but not other clade viruses with 2 or 3 mutations in the central region. In contrast, the vif sequence, which was conserved across clades except for single mutations at positions 14 and 17, inhibited viruses from 5 different clades. Moreover, siRNAs with introduced mutations at sites of gag sequence polymorphisms showed reduced antiviral activity, whereas mutations in vif siRNA only modestly decreased silencing. Thus, although 1 or 2 mutations at peripheral sites are tolerated, mutations in the central target cleavage region abolish RNAi activity.     

Analysis of insertions and deletions in the gag p6 region of diverse HIV type 1 strains

Sequence variation in the gag p6 region in subtype B HIV-1 has been associated with changes in viral replication capacity and antiretroviral drug susceptibility. We examined sequence variation in the HIV-1 gag p6 region using plasma samples from 22 individuals with non-subtype B HIV-1 infection [subtypes A, C, D, F, and G, and circulating recombinant forms (CRFs) CRF01-AE and CRF02_AG]. An additional 105 gag sequences from the Los Alamos National Laboratory database were also analyzed. Extensive length variation was observed in the p6 gag region. Specific patterns of insertions and deletions were observed in different subtypes and CRFs, and no two subtypes or CRFs had the same general pattern. PTAP duplications were more common in subtype C than other strains (3 of 14 in subtype C vs. 2 of 113 in other strains, p = 0.004), and KQE duplications were seen only in subtype B. Further studies are needed to determine whether such genotypic differences influence viral replication capacity, antiretroviral drug susceptibility, or other phenotypic properties of these strains.     

Peripheral blood Dendritic cells are not a major reservoir for HIV type 1 in infected individuals on virally suppressive HAART

Dendritic cells (DCs) are potent antigen-presenting cells, and their physiological localization in tissues that interact with the external environment is important as a first barrier against pathogens such as human immunodeficiency virus type I (HIV-1). Several models have been proposed to explain the possible role of DCs as a reservoir for HIV-1 in patients on virally suppressive highly active antiretroviral therapy (HAART). However, the low yield of cell isolates has made this evaluation a difficult task. The present study analyzes whether peripheral blood DCs from HIV-1-infected individuals on virally suppressive HAART, with plasma HIV-1 RNA levels of less than 50 copies/ml, carry either HIV-1 provirus and/or HIV-1 virions. Peripheral blood DCs were isolated from a cohort of 10 HIV-1-seropositive men taking suppressive HAART. In five patients, plasmacytoid and myeloid dendritic cells were isolated to attempt to identify their respective roles in HIV-1 residual disease. Viral out-growth assays were performed in vitro, as well as gag and R/U5 polymerase chain reaction (PCR) amplification of viral RNA and DNA, respectively, from DC and peripheral blood mononuclear cell (PBMC) extracts. Fluorescence activated cell-sorting (FACS) data revealed cellular yields from 85.90 to 95.18%, of relatively pure DCs isolated from patients' PBMCs. Although HIV-1 RNA gag and DNA RU/5 were detected in all PBMC samples isolated from the patients, proviral DNA and viral RNA forms were not detected in any of the DC isolates. In addition, no replication-competent virus was demonstrated in DC coculture assays, while virus was isolated from each patients' CD8+ T-lymphocyte-depleted PBMC cocultures. Furthermore, HIV-1 gag proviral DNA was not detected in either plasmacytoid or myeloid DC subfractions. The current study suggests that in HIV-1-infected individuals treated with suppressive HAART, peripheral blood DCs do not carry HIV-1 proviral DNA or viral particles attached to their surface. These populations of peripheral blood DCs are likely not a major HIV-1 reservoir in patients on HAART with clinically undetectable plasma viral RNA.     

Characterization of subtype A HIV-1 from Africa by full genome sequencing.

OBJECTIVE: To improve our understanding of the genetic complexity of HIV-1 subtype A by increasing the number of subtype A isolates that have been sequenced in their entirety. METHODS: Nine HIV-1-seropositive patients from Africa living in Sweden contributed peripheral blood mononuclear cells (PBMC) for this study. Sequencing of the C2-V3 region of env had shown them to be subtype A. DNA from virus cultures was used for the amplification of virtually full-length proviral sequences, and the resulting fragment was sequenced. RESULTS: Six of the nine viral isolates were subtype A throughout the genome, or non-recombinant, and all of these were from east Africa. One virus from the Ivory Coast had the AG(IbNG) genetic form, a recombinant form common in west Africa. Two of the isolates were novel recombinants: one was an A/C recombinant and the other was A/D. Analysis of gag reveals three subclusters within the A subtype: one containing the AG(IbNG) subtype viruses, one containing the AE(CM240) viruses and one containing the non-recombinant A viruses. These genetic clusters have different geographical distributions in Africa. CONCLUSION: The prevailing view of HIV-1 subtype A forming a uniform band across the center of sub-Saharan Africa needs revision. In all probability, the most common subtype in west Africa and west central Africa is the AG recombinant, AG(IbNG), whereas in east central Africa it is the non-recombinant subtype A.     

Characterization and selection of HIV-1 subtype C isolates for use in vaccine development

HIV-1 genetic diversity among circulating strains presents a major challenge for HIV-1 vaccine development, particularly for developing countries where less sequence information is available. To identify representative viruses for inclusion in candidate vaccines targeted for South Africa, we applied an efficient sequence survey strategy to samples from recently and chronically infected persons residing in potential vaccine trial sites. All 111 sequences were subtype C, including 30 partial gag, 26 partial pol, 27 V2-V3 env, and 28 V5-partial gp41 sequences. Of the 10 viruses cultured from recently infected individuals, 9 were R5 and 1 was R5X4. Two isolates, Du151 and Du422, collected within 2 months of infection, were selected as vaccine strains on the basis of their amino acid similarity to a derived South African consensus sequence The selection of recently transmitted R5 isolates for vaccine design may provide an advantage in a subtype C R5-dominant epidemic. The full-length Du422 gag and Du151 pol and env genes were cloned into the Venezuelan equine encephalitis (VEE) replicon particle (VRP) expression system. Du422 Gag protein expressed from the VRP accumulated to a high level and was immunogenic as demonstrated by cytotoxic T lymphocyte responses in mice vaccinated with gag-VRPs. Optimization of codon use for VRP expression in human cells did not enhance expression of the gag gene. The cloned Du151 env gene encoded a functional protein as demonstrated by fusion of VRP-infected cells with cells expressing CD4 and CCR5. Genes identified in this study have been incorporated into the VEE VRP candidate vaccines targeted for clinical trial in South Africa.     

Translation of Pr55(gag) augments packaging of human immunodeficiency virus type 1 RNA in a cis-acting manner

The full-length RNA of human immunodeficiency virus type 1 (HIV-1) serves both as a messenger (mRNA) to direct the translation of Pr55(gag) proteins and as genomic or viral particle RNA (vpRNA) to be packaged into virions. In this study, we have assessed a putative cis-acting effect of Pr55(gag) translation on HIV-1 RNA packaging. To pursue this subject, we have measured the relative competence of two distinct types of HIV-1 RNA for being packaged by virus particles under conditions in which only one of them is permissive for production of Pr55(gag). Not surprisingly, wild-type BH10 RNA was packaged at far higher efficiency than that associated with mutant viral RNA that was deleted of RNA packaging signals and incapable of Pr55(gag) production. However, when production of Pr55(gag) was eliminated from the wild-type BH10 viral RNA by insertion of stop codons either in matrix (MA) or in capsid (CA) sequences, regardless of retention of wild-type RNA packaging signals, these Pr55(gag)-deficient viral RNAs were packaged at low levels similar to those observed with viral RNA species that lack RNA packaging signals and are capable of Pr55(gag) generation. Moreover, loss of Pr55(gag) production did not affect stability of the relevant viral RNA; this observation rules out the possibility that lowered packaging efficiency associated with Pr55(gag)-deficient HIV-1 RNA is a result of reduced RNA stability. Taken together, our data demonstrate that cis translation of Pr55(gag) is needed for efficient packaging of HIV-1 RNA.     

Inhibition of multiple gene expression and virus replication of HBV by stable RNA interference in 2.2.15 cells

BACKGROUND/AIMS: Hepatitis B virus (HBV) infection is a world-wide health problem. Recent studies have demonstrated the efficacy of RNA interference (RNAi) against HBV replication at cell culture and animal levels using transient transfection. The present study was to determine whether the stable transfection of short hairpin RNA (shRNA)-producing vector could achieve potent and sustained inhibition of the HBV replication in 2.2.15 cells. METHODS: shRNA-producing vector against HBV and the empty vector were stably transfected into the 2.2.15 cells respectively. A series of experiments were performed in the producing stable lines to determine the changes of viral protein expression and replication. RESULTS: The HBV protein expression and viral replication were suppressed dramatically and stably by the integrated shRNA-producing vectors. Most importantly, this suppression effect persists after 30 passages. CONCLUSIONS: Our data provided the possibility of continuous and stable inhibition of HBV protein expression and replication in patients using RNAi, suggesting a potential clinical application of this novel approach. Furthermore, the established stable transfected cell lines provided a good platform for understanding the mechanism of anti-HBV by RNAi.     

Predominance of three NF-kappaB binding sites in the long terminal repeat region of HIV Type 1 subtype C isolates from Zambia

Human immunodeficiency virus type-1 (HIV-1) is a leading cause of mortality and morbidity in the world, with almost 46 million people infected globally. HIV-1 subtype C accounts for 55% of these infections. In Zambia, the majority of HIV-1 infections are subtype C. However, to its north most countries have non-subtype C as the most predominant HIV-1 subtype while to its south most of them are predominantly subtype C. The aim of this study was to determine the subtype distribution and to analyze the long terminal repeat (LTR) region of HIV-1 isolates from the northern part of Zambia. We amplified as well as directly sequenced the LTR, gag, and env regions of 78 HIV-1 peripheral blood samples from adult Zambians. Our results show 95% (74/78) of our isolates were HIV-1 subtype C. Furthermore, of the subtype C samples analyzed across the LTR, 61% (25/41) carried 3 NF-kappaB signature binding site sequences.     

Identification of a new HIV-2 subtype based on phylogenetic analysis of full-length genomic sequence

Human immunodeficiency virus type 2 (HIV-2) and simian immunodeficiency virus from sooty mangabey (SIV(SM) form one of the six primate lentivirus lineages. The close phylogenetic relationship and geographic coincidence indicate that HIV-2 originated from cross-species transmission of SIV(SM) to humans. HIV-2 exhibits considerable genetic diversity, with subtypes A-F identified. Previously, we reported the partial gag and env sequences of an unusual HIV-2 isolate, Abt96. Abt96 was collected in Ivory Coast from an asymptomatic blood donor. Here we describe the near full-length genomic sequence of Abt96. The genome was assembled from overlapping PCR fragments amplified from viral RNA isolated from plasma. Phylogenetic analysis of sequences derived from segments of the Abt96 genome demonstrate that the Abt96 isolate branches independently of all other characterized HIV-2 isolates. On the basis of the phylogenetic data being presented, we propose that Abt96 is a new HIV-2 subtype and designate it subtype G.     

Measurement of HIV-1 CRF02_AG-specific T cell responses indicates the dominance of a p24gag epitope in blood donors in Abidjan, Cote d'Ivoire

Characterization of human immunodeficiency virus (HIV)-1-specific immune responses against subtypes circulating in areas where the virus is endemic is critical for the design of candidate vaccines. In Cote d'Ivoire, the most prevalent HIV-1 subtype is CRF02_AG. We detected T cell responses to CRF02_AG consensus p24(gag) or protease peptides in 81% of HIV-1- or HIV-1/2-infected blood donors in Abidjan, Cote d'Ivoire. Both the magnitude and the breadth of interferon- gamma enzyme-linked immunospot responses were inversely correlated with plasma viral load. One frequently recognized peptide in p24(gag) was mapped to the optimal epitope (TPQDLNMML). Further studies of this epitope may be important for the development of HIV-1 vaccines for West Africa and West-Central Africa.     

Proteasome inhibition interferes with gag polyprotein processing, release, and maturation of HIV-1 and HIV-2

Retrovirus assembly and maturation involve folding and transport of viral proteins to the virus assembly site followed by subsequent proteolytic cleavage of the Gag polyprotein within the nascent virion. We report that inhibiting proteasomes severely decreases the budding, maturation, and infectivity of HIV. Although processing of the Env glycoproteins is not changed, proteasome inhibitors inhibit processing of Gag polyprotein by the viral protease without affecting the activity of the HIV-1 viral protease itself, as demonstrated by in vitro processing of HIV-1 Gag polyprotein Pr55. Furthermore, this effect occurs independently of the virus release function of the HIV-1 accessory protein Vpu and is not limited to HIV-1, as proteasome inhibitors also reduce virus release and Gag processing of HIV-2. Electron microscopy analysis revealed ultrastructural changes in budding virions similar to mutants in the late assembly domain of p6(gag), a C-terminal domain of Pr55 required for efficient virus maturation and release. Proteasome inhibition reduced the level of free ubiquitin in HIV-1-infected cells and prevented monoubiquitination of p6(gag). Consistent with this, viruses with mutations in PR or p6(gag) were resistant to detrimental effects mediated by proteasome inhibitors. These results indicate the requirement for an active proteasome/ubiquitin system in release and maturation of infectious HIV particles and provide a potential pharmaceutical strategy for interfering with retrovirus replication.     

HIV-1 B'/C亚型毒株的复制动力学特点

目的分析不同疾病进展阶段B'/C亚型毒株的复制动力学特点。方法从长期不进展者(long-term nonprogressors,LTNPs)和AIDS期患者体内分离病毒株,用相同量的病毒株去感染正常人的去CD8+T淋巴细胞的外周血单个核细胞,通过检测感染后第0、3、6、9、12、18、21天的上清液中核衣壳蛋白p24(p24)含量,作出折线图来分析该毒株的复制动力学特征。结果从AIDS期患者体内分离的B'/C重组亚型病毒株的复制速度快且p24峰值高,而从LTNPs体内分离的B'/C重组亚型病毒株的复制速度慢且p24峰值低。结论从AIDS期患者体内分离的B'/C重组亚型病毒株复制能力较强,而从LTNPs患者体内分离的B'/C重组亚型病毒株复制能力较弱。     

Molecular characterization of 39 HIV isolates representing group M (subtypes A-G) and group O: sequence analysis of gag p24, pol integrase,and env gp41

A panel of genetically diverse, well-characterized human immunodeficiency type 1 (HIV-1) virus isolates is a valuable tool for standardizing nucleic acid-based tests. Since HIV quantitative assays target different regions of the genome, thorough molecular characterization is useful for evaluating the effect of genetic variation on viral load assay performance. In this study, 39 virus isolates were examined. The representative HIV-1 group M subtypes A-G and group O strains included 30 members of the Walter Reed Army Institute of Research (WRAIR) clade panel. Though this panel is currently being used in laboratories around the world, only limited sequence information is available on most of these isolates. In this communication, gag p24 (gag), pol integrase (pol IN), and env gp41 immunodominant (IDR) region sequences were characterized to assess the level of genetic diversity and to verify group/subtype. The panel was composed of 37 group M and two group O strains.     

Inhibition of hepatitis C virus replication using adeno-associated virus vector delivery of an exogenous anti-hepatitis C virus microRNA cluster

RNA interference (RNAi) is being evaluated as an alternative therapeutic strategy for hepatitis C virus (HCV) infection. The use of viral vectors encoding short hairpin RNAs (shRNAs) has been the most common strategy employed to provide sustained expression of RNAi effectors. However, overexpression and incomplete processing of shRNAs has led to saturation of the endogenous miRNA pathway, resulting in toxicity. The use of endogenous microRNAs (miRNAs) as scaffolds for short interfering (siRNAs) may avoid these problems, and miRNA clusters can be engineered to express multiple RNAi effectors, a feature that may prevent RNAi-resistant HCV mutant generation. We exploited the endogenous miRNA-17-92 cluster to generate a polycistronic primary miRNA that is processed into five mature miRNAs that target different regions of the HCV genome. All five anti-HCV miRNAs were active, achieving up to 97% inhibition of Renilla luciferase (RLuc) HCV reporter plasmids. Self-complementary recombinant adeno-associated virus (scAAV) vectors were chosen for therapeutic delivery of the miRNA cluster. Expression of the miRNAs from scAAV inhibited the replication of cell culture-propagated HCV (HCVcc) by 98%, and resulted in up to 93% gene silencing of RLuc-HCV reporter plasmids in mouse liver. No hepatocellular toxicity was observed at scAAV doses as high as 5 × 10(11) vector genomes per mouse, a dose that is approximately five-fold higher than doses of scAAV-shRNA vectors that others have shown previously to be toxic in mouse liver. Conclusion: We have demonstrated that exogenous anti-HCV miRNAs induce gene silencing, and when expressed from scAAV vectors inhibit the replication of HCVcc without inducing toxicity. The combination of an AAV vector delivery system and exploitation of the endogenous RNAi pathway is a potentially viable alternative to current HCV treatment regimens.     

Phenotypic characteristics of human immunodeficiency virus type 1 subtype C isolates of Ethiopian AIDS patients.

It has been estimated that, to date, about 48% of all HIV-infected people in the world carry HIV-1 subtype C virus. Therefore, it is of great importance to gain better knowledge about the genetic and biological characteristics of this virus subtype. In the present study, the biological properties of HIV-1 isolates obtained from nine Ethiopian patients with AIDS were studied. DNA sequencing of the V3 loop of gp120 classified the isolates as subtype C. In primary isolation cultures, virus infection was accompanied by syncytium formation and cell lysis. Interestingly, when examining the growth in primary monocyte-macrophage cultures, initial low-level virus replication was followed by a nonproductive state, from which virus could be rescued by cocultivation with Jurkat(tat) cells. Furthermore, none of the isolates replicated in T cell lines (CEM, MT-2, HuT-78, and H9) or in the promonocytic cell line U937 clone 2. All isolates could use CCR5 as coreceptor, whereas no isolates could use CCR2b, CCR3, CCR5, CXCR4, Bonzo/STRL33, or BOB/GPR15. The genotype of the V3 region correlated with the MT-2 negative/non-syncytium-inducing (NSI) phenotype. Comparative studies revealed that the scarcity of CXCR4 usage as well as other phenotypic characteristics of subtype C isolates distinguish this subtype. On the basis of these data, we suggest that in addition, factors other than viral phenotype may govern the pathogenic potential of subtype C isolates.     

Short communication: identification of a novel HIV type 1 subtype H/J recombinant in Canada with discordant HIV viral load (RNA) values in three different commercial assays

The presence of HIV-1 non-B subtypes is increasing worldwide. This poses challenges to commercial diagnostic and viral load (RNA) monitoring tests that are predominantly based on HIV-1 subtype B strains. Based on phylogenetic analysis of the gag, pol, and env gene regions, we describe the first HIV-1 H/J recombinant in Canada that presented divergent viral load values. DNA sequence analysis of the gag gene region further revealed that genetic diversity between this H/J recombinant and the primers and probes used in the bio-Merieux Nuclisens HIV-1 QT (Nuclisens) and Roche Amplicor Monitor HIV-1, v1.5 (Monitor) viral RNA assays can erroneously lead to undetectable viral load values. This observation appears to be more problematic in the Nuclisens assay. In light of increasing genetic diversity in HIV worldwide we recommend that DNA sequencing of HIV, especially in the gag gene region targeted by primers and probes used in molecular diagnostic and viral load tests, be incorporated into clinical monitoring practices.