Project description:The chemokine receptor CCR5 is a major co-receptor for human immunodeficiency virus 1 (HIV-1) mediating infection of target cells1,2. Beyond its function as co-receptor, CCR5 also influences the course of HIV disease and progression to AIDS3. However, it is unclear how CCR5 affects HIV-associated damage to the central nervous system (CNS) and development of HIV-associated neurocognitive disorders (HAND) independently of its co-receptor function. Here we show in a transgenic model of brain damage induced by HIV envelope protein gp1204 that genetic ablation of CCR5 prevents neuronal injury and loss and limits microglial activation, but fails to abrogate astrocytosis. CCR5 deficiency also protected gp120-transgenic mice against impairment of spatial learning and memory. Thus, CCR5-deficiency revealed that astrocytosis, a prominent pathological feature of AIDS brains5, can occur independently from neuronal demise and behavioral impairment. Since the viral envelope protein expressed in the transgenic mouse model originated from HIV-1 LAV4, a CXCR4-preferring virus that can infect macrophages6, CCR5 appeared to exert its control of neuronal injury predominantly in an indirect fashion and independently from its function as a co-receptor. Using analysis of genome-wide CNS gene expression we identified a subset of 734 genes that were differentially regulated in association with neuronal injury in the presence of CCR5. This subset of genes indicated that neuronal injury was associated with activation of macrophages and microglia. A set of 1305 genes was only differentially regulated in association with gp120 in the absence of CCR5 and indicated changes to leukocyte function and the anti-viral immune response besides a down-regulation of components in the GABAergic neurotransmission system. Interestingly, the most significantly differentially expressed genes were observed in a separate subset of 461 genes that was regulated in association with gp120 but independently of the CCR5 genotype. The finding that differential regulation of the 461 and 1305 gene sets was not necessarily linked to neuronal damage and loss suggested that altered expression of at least some of these factors may represent a protective adaptive response of the brain to the presence of viral gp120. Additional experiments using quantitative RT-PCR, protein assays and flow cytometry further supported the notion that CCR5 deficiency blunted microglial activation, a hallmark of HIV-associated brain injury7-9 without significantly affecting the expression of viral gp120. These results provide in vivo evidence for a significant role of CCR5 in HIV-associated CNS injury and behavioral impairment that is independent of the molecules’ function as HIV co-receptor. To characterize the neuroprotective effect of CCR5 ablation in the presence of HIV gp120, we next performed a genome-wide gene expression analysis using whole brain RNA preparations of mice from lines 1 and 2. We decided to collect samples from two time points before and after the ages of when we analyzed histopathology (6 months) and behavior (8 to 9 months) in order to identify genes for which differential regulation may be affected by an interaction of HIVgp120 expression and age. Accordingly, we collected brain tissue of gp120tg, CCR5KO x gp120tg, WT and CCR5KO mice at five different ages: 1.5, 3, 6, 12, and 20 (line 1) or 16 (line 2) months.

Project description:Chemokine receptors CXCR4 and CCR5 regulate white blood cell trafficking, and are engaged by the HIV-1 envelope glycoprotein gp120 during infection. We combine directed evolution of CXCR4 and CCR5 libraries comprising nearly all ~7,000 single amino acid substitutions with deep sequencing to define sequence-fitness landscapes for surface expression and ligand interactions. Functional interaction sites are mapped based on conservation; for example, extracellular residues are conserved for binding HIV-1-blocking antibodies, as expected. Chemokine CXCL12 interacts with residues extending asymmetrically into the CXCR4 ligand-binding cavity, and distal mutations within allosteric and G protein coupling sites are identified that enhance chemokine binding. CCR5 residues conserved for gp120 interactions partially overlap with the chemokine-binding site, and gp120 binding is increased by acidic substitutions in the CCR5 N-terminus and extracellular loops. Furthermore, general features are apparent from sequence patterns, including membrane regions that are intolerant to polar mutations, and deleterious cysteine substitutions within extracellular loops.

Project description:CCR5 is the main HIV co-receptor. We aimed to (1) compare CCR5 expression on immune cells between people living with HIV (PLHIV) using combination antiretroviral therapy (cART) and HIV-uninfected controls, (2) relate CCR5 expression to viral reservoir size and (3) assess detereminants of CCR5 expression. Percentages of CCR5 positive cells (%) and CCR5 mean fluorescence intensity (MFI) assessed by flow cytometry in monocytes and lymphocyte subsets were correlated to host factors, HIV-1 cell-associated (CA)-RNA and CA-DNA, plasma inflammation markers and metabolites.

Project description:The anti-HIV humoral immune response following acute infection is delayed and ineffective. HIV envelope protein gp120 binds to and signals through α4β7 on T cells. We show that gp120 also binds and signals through α4β7 on B cells, resulting in an abortive proliferative response. In primary B cells, gp120 signaling through α4β7 resulted in increased expression of TGF-β1 and the B cell inhibitory receptor FcRL4. Co-culture of B cells with HIV-infected autologous CD4+ T cells also resulted in increased B cell FcRL4 expression. These findings indicate that, in addition to inducing chronic immune activation, viral proteins can contribute directly to HIV-associated B cell dysfunction, thus providing a mechanism whereby the virus subverts the early HIV-specific humoral immune response. Forty-two samples in two batches were run with different treatments and different time points.

Project description:The anti-HIV humoral immune response following acute infection is delayed and ineffective. HIV envelope protein gp120 binds to and signals through α4β7 on T cells. We show that gp120 also binds and signals through α4β7 on B cells, resulting in an abortive proliferative response. In primary B cells, gp120 signaling through α4β7 resulted in increased expression of TGF-β1 and the B cell inhibitory receptor FcRL4. Co-culture of B cells with HIV-infected autologous CD4+ T cells also resulted in increased B cell FcRL4 expression. These findings indicate that, in addition to inducing chronic immune activation, viral proteins can contribute directly to HIV-associated B cell dysfunction, thus providing a mechanism whereby the virus subverts the early HIV-specific humoral immune response.

Project description:<p>Rare individuals are highly resistant to infection with human immunodeficiency virus (HIV). Studies of candidate genes resulted in the discovery of a 32bp deletion in the CC-chemokine receptor 5 gene (CCR5&#916;32), which rendered this critical co-receptor for primary HIV infection to be non-functional. Pharmacologic and vaccine-induced blockade of CCR5 is being pursued to treat and prevent HIV infection and other conditions.</p> <p>The allele frequency of CCR5&#916;32 among persons of European ancestry is approximately 10%. CCR5&#916;32/&#916;32 homozygotes are almost totally resistant to HIV infection. People with severe hemophilia A require frequent replacement with clotting Factor VIII (FVIII) to control hemorrhage. Prior to the discovery of HIV in 1984 and licensure of recombinant FVIII in the late 1980s, people with severe hemophilia A were treated with plasma-derived FVIII and thus were intensively exposed to HIV. Only 5% of such patients were not infected with HIV. Of these, approximately 1/3 were CCR5&#916;32/&#916;32 homozygotes. The remaining 2/3 of these people who were highly resistant to HIV remain unexplained. This project seeks to discover genome variations among people who are highly resistant to HIV infection. Such variation is likely to serve as a target for reducing the morbidity and incidence of HIV. </p>

Project description:HIV-1 usually utilize CCR5 as the co-receptor and rarely switches to CXCR4-tropic until late stage of infection. CCR5+CD4+ T cells are the major virus-producing cells in patients as well as SIV-infected non-human primates. The differentiation of CCR5+CD4+ T cells is associated with the availability of IL-15, which increases during acute HIV-1 infection. Here, we report that CCR5 is expressed by CD4+ T cells exhibiting effector or effector memory phenotype with high expression levels of the IL-2/IL-15 receptor common beta and gamma chains. IL-15 but not IL-7 improves the survival of CCR5+CD4+ T cells, drives their expansion, and facilitates HIV-1 infection in vitro and in humanized mice. Our study suggests that IL-15 plays confounding roles in HIV-1 infection, and future studies on the IL-15-based boosting of anti-HIV-1 immunity should carefully exam the potential effects on the expansion of HIV-1 reservoirs in CCR5+CD4+ T cells.

Project description:Purpose: The goals of this study is to compare transcriptome profiles of microglia from different mouse genotypes using RNA-seq analysis. HIV-associated neurocognitive disorders (HAND) occur in about 50% of infected individuals. Transgenic mice expressing the soluble HIV-1 envelope glycoprotein gp120 in astroglia (HIVgp120tg) display key neuropathological features of NeuroHIV patients (Toggas et al., 1994; Maung et al., 2014; Ojeda-Juarez et al., 2020). Here we show that microglial p38α MAPK plays a crucial role in neuronal injury triggered in vivo by the viral envelope glycoprotein. Cre-expression driven by the CX3CR1 promotor in HIVgp120tg mice carrying floxed alleles of p38a MAPK results in deletion of p38α in microglia and complete protection against neuronal injury and loss. RNA-seq analysis of microglia indicates that p38α deficiency leads to upregulation of neuroprotective and downregulation of neurotoxic factors. The expression patterns of genes associated with neurotransmission differ between brains protected from neuronal injury in the presence of transgenic gp120 and non-transgenic controls, suggesting a non-toxic modulation of neurons by the viral protein and microglial p38α deficiency.

Project description:The mature HIV-1 envelope (Env) glycoprotein is composed of gp120, the exterior subunit, and gp41, the transmembrane subunit assembled as trimer by noncovalent interaction. There is a great body of literature to prove that gp120 binds to CD4 first, then to the co-receptor. We have recently demonstrated that gp120 cannot bind to the co-receptor without first interacting with CD4. Previous studies provided different glycomic maps for the HIV-1 gp120. Here, we build on previous work to report that the use of LC-MS/MS, in conjunction with hydrophilic interaction liquid chromatography (HILIC) enrichment to glycosylation sites, is associated with the assorted neutralizing or binding events of glycosylation targeted antibodies from different clades or strains. In this study, the microheterogeneity of the glycosylation from 4 different clades of gp120s is deeply investigated. Aberrant glycosylation patterns were detected on gp120 originated from different clades, viral sequences and host cells. The results of this study may help provide better understanding of the mechanism of how the glycans participate in antibody neutralizing process that target glycosylation sites.

Project description:C-C chemokine receptor 5 (CCR5) is a co-receptor of HIV. Its ligand, CCL5 significantly augmented the number of wild-type osteoclasts but not Ccr5-deficient cells, indicating that CCL5 enhanced RANKL-induced osteoclastogenesis through CCR5. To investigate the changes in the transcriptional signatures induced by CCL5 in osteoclastogenesis, cultured osteoclasts at pOC stages were incubated with or without rmCCL5 for 2 days, and then subjected for RNA sequencing.