Project description:Mechanisms that may allow circulating monocytes to persist as CD4 T cells diminish in HIV-1 infection have not been investigated. We have characterized steady-state gene expression signatures in circulating monocytes from HIV-infected subjects and have identified a stable anti-apoptosis gene signature comprised of 38 genes associated with p53, CD40L, TNF and MAPKinase signaling networks. The significance of this gene signature is indicated by our demonstration of cadmium chloride- or Fas ligand-induced apoptosis resistance in circulating monocytes in contrast to increasing apoptosis in CD4 T cells from the same infected subjects. As potential mechanisms in vivo, we show that monocyte CCR5 binding by HIV-1 virus or agonist chemokines serve as independent viral and host modulators resulting in increased monocyte apoptosis resistance in vitro. We also show evidence for concordance between circulating monocyte apoptosis-related gene expression in HIV-1 infection in vivo and available datasets following viral infection or envelope exposure in monocyte derived macrophages in vitro. The identification of in vivo gene expression associated with monocyte resistance to apoptosis is of relevance to AIDS pathogenesis since it would contribute to: (1) maintaining viability of infection targets and long-term reservoirs of HIV-1 infection in the monocyte/macrophage populations, and (2) protecting a cell subset critical to host survival in spite of sustained high viral replication. Keywords: two group study design

Project description:Abstract Objectives: HIV infection dysregulates the innate immune system and alters leukocyte gene expression. The objectives were two fold: to characterize the impact of HIV infection on peripheral monocyte gene expression and to identify the predominant factor(s) responsible for altered gene expression. Design and methods: In a cross-sectional study, CD14+ monocytes were isolated from 11 HIV seronegative controls, 22 HIV seropositive subjects with low viral loads (LVL, <= 10,000 RNA copies/ml) and 22 HIV seropositive subjects with high viral loads (HVL, > 10,000 RNA/copies/ml). Total monocyte RNA was hybridized to 55K probes on high-density microarrays to obtained detailed gene expression profiles from control, LVL and HVL subjects. As potential candidates for immune disruption, we evaluated three HIV-related peripheral factors, interferon (IFN)-a, IFN-a and lipopolysaccharide (LPS) by treating HIV seronegative CD14+ monocytes for 48h and then analyzing gene expression. Plasma collected from the HIV subjects were quantified for LPS using a Pyrogene assay and for soluble (s) CD14 by ELISA. Results: In this cross-sectional study of HIV subjects (n=44), viral loads above 10,000 RNA copies/ml were associated with an activated phenotype. Characterization of the gene expression pattern by Gene Ontology reveals an ongoing immune response to viral infection including inflammation and chemotaxis. Gene expression analysis of in vitro treated HIV seronegative monocytes with IFN-a, IFN-g or LPS demonstrated that IFN-a most accurately recapitulated the HIV HVL profile. There was no detectable LPS signature even in those HIV subjects with the highest LPS and sCD14 levels. Conclusions: Monocyte gene expression in subjects with viremia is predominantly due to IFN-a, while subjects with LVL have a non-activated phenotype. In monocytes, there was no discernible expression profile linked to LPS exposure.

Project description:Previous studies have shown that cannabis use in people living with HIV-1 is associated with a lower viral load, lower circulating CD16+ monocytes, and high CD4+ T-cell count, suggesting a potential therapeutic application. HIV-1 infected U1 monocytes and primary macrophages were used to assess the effects of CBD in HIV-1 infection. Our data suggests that CBD treatment results in a significant reduction in the number of EVs released from infected cells. Additional findings suggest that this may be mediated by a reduction in viral transcription and autophagy activation. To see the effect of CBD in autophagy activation, U1 and U1 Monocyte Derived Macrophages cells were cultured and lysed. D-Biotin or Biotinylated CBD pull-down from the lysates was performed using Streptavidin-Sepharose beads, which were washed with TNE50 / TNE300 (high salt) + 0.1% NP40 buffers. The complexes were analyzed by mass spectrometry. Reactome enrichment analysis was used to assess the CBD pull-down of HIV-1 infected monocytes (U1) and HIV-1 infected MDM proteins for involvement of the autophagy pathway.

Project description:Chronic immune activation is a hallmark of human immunodeficiency virus (HIV) infection and the best prognostic indicator of disease progression. Suppressing HIV viremia by antiretroviral therapy (ART) restores normal immune response and effectively prolongs life. In HIV-infected individuals who are coinfected with hepatitis C virus (HCV) the immune system is activated despite effective HIV antiretroviral therapy controlling viral load. Here we examined CD14+ monocyte gene expression by high-density microarray analysis and T cell subsets, CD4 and CD8, by flow cytometry to characterize immune activation in monoinfected HCV, monoinfected HIV and HIV/HCV coinfected subjects with undetected HIV viral load. To determine the impact of coinfection on cognition, subjects were evaluated in 7 domains for neuropsychological (NP) performance, which was summarized as global deficit scores (GDS). Gene expression analysis of CD14+ monocytes from coinfected subjects revealed an elevated type 1 interferon (IFN) response profile unique to coinfection. For both CD4 and CD8 T cells, coinfection triggered significantly increased expression of activation markers CD38 and HLA-DR. In the coinfected group, mild cognitive impairment was associated with a type 1 IFN monocyte response but not plasma lipopolysaccharide. These observations raise the possibility that cognitive impairment evident in the HIV/HCV population is associated with the IFN response detected in coinfected individuals.

Project description:HIV reservoirs persist despite successful antiretroviral therapy (ART) and are a major obstacle to the eradication and cure of HIV. The mature monocyte subset, CD14+CD16+, contributes to viral reservoirs and HIV-associated comorbidities. Only a subset of monocytes harbors HIV (HIV+), while the rest remain uninfected, exposed cells (HIVexp). We developed an innovative single cell RNA sequencing (scRNAseq) pipeline that detects HIV and host transcripts simultaneously, enabling us to examine differences between HIV+ and HIVexp mature monocytes. Using this, we characterized uninfected, HIV+, and HIVexp primary human mature monocytes with and without ART. We showed that HIV+ mature monocytes do not form their own cluster separately from HIVexp but can be distinguished by significant differential gene expression. We found that ART decreased levels of unspliced HIV transcripts potentially by modulating host transcriptional regulators shown to decrease viral infection and replication. We also identified and characterized mature monocyte subpopulations differentially impacted by HIV and ART. We identified genes dysregulated by ART in HIVexp monocytes compared to their uninfected counterpart and, of interest, the junctional protein ALCAM, suggesting that ART impacts monocyte functions. Our data provide a novel method for simultaneous detection of HIV and host transcripts. We identify potential targets, such as those genes whose expression is increased in HIV+ mature monocytes compared to HIVexp, to block their entry into tissues, preventing establishment/replenishment of HIV reservoirs even with ART, thereby reducing and/or eliminating viral burden and HIV-associated comorbidities. Our data also highlight the heterogeneity of mature monocyte subsets and their potential contributions to HIV pathogenesis in the ART era.

Project description:HIV transmission involves the adhesion to and migration of infected cells, including monocytes across biological barriers comprising extracellular matrix components. Recently, semen exosomes (SE) from HIV uninfected (HIV-) and HIV infected (HIV+) subjects were shown to contain molecules that were adhesive to Jurkat T cells. Since monocyte trafficking across various biological barriers are intensified by HIV and/or illicit substances, such as cocaine, we sought to understand how SE from HIV infected subjects’ comorbid with illicit drug abuse influence monocyte gene expression and behavior. Therefore, a model of U937 monocyte adhesion on collagen-coated surface in the presence and absence of SE from various clinical (HIV-Drug-, HIV-Drug+, HIV+Drug-, and HIV+Drug+) groups was developed. Using this system, we demonstrate by Microarray analysis that SE from different clinical groups reprogramed gene expression profile of monocytes cultured atop collagen. In line with altered gene expression is increased adhesion of monocytes to collagen following treatment with SE from all clinical groups compared to vehicle. Interestingly, SE from HIV+ subjects’ comorbid with drug abuse potentiated monocyte adhesion to collagen. Mechanistically, SE-Drug and SE-HIV altered monocyte shape, induced actin cytoskeleton reorganization, formation of membrane ruffles and lamellipodia-like structures, as well as focal-adhesion contacts. The cytoskeletal reorganization induced by SE-Drug is associated with impairment of cell motility, while SE-HIV increased cell chemotaxis toward HIV secretome. The observation of SE-Drug and SE-HIV mediated alteration of monocyte transcriptome and cellular behavior reported herein is key to understanding the contribution of exosomes to long-term neuro, vascular, and mucosal perturbations associated with psychostimulants (methamphetamine, cocaine, opioids, and alcohol) comorbidity with HIV infection.

Project description:HIV-1 infection of monocytes/macrophages is modulated by several host factors. For instance, although HIV-1 successfully enters monocytes, antiviral restriction factors inhibit HIV-1 productive infection in these cells. We recently identified two microRNAs, miR-221 and miR-222, which limit HIV-1 entry during infection of monocyte-derived macrophages (MDM) by down-regulating CD4 expression. Interestingly, CD4 is also down regulated during the differentiation of monocytes into macrophages. In this study, we compared microRNA expression in monocytes and macrophages by RNAseq and found that miR-221/miR-222 are enhanced in macrophages.Taken together, these results show that both miR-221 and miR-222 act as modulators of CD4 mRNA expression throughout the monocyte/macrophage lineage, having roles in their differentiation, activation processes and modulating macrophage resistance to HIV-1.

Project description:Chronic immune activation is a hallmark of human immunodeficiency virus (HIV) infection and the best prognostic indicator of disease progression. Suppressing HIV viremia by antiretroviral therapy (ART) restores normal immune response and effectively prolongs life. In HIV-infected individuals who are coinfected with hepatitis C virus (HCV) the immune system is activated despite effective HIV antiretroviral therapy controlling viral load. Here we examined CD14+ monocyte gene expression by high-density microarray analysis and T cell subsets, CD4 and CD8, by flow cytometry to characterize immune activation in monoinfected HCV, monoinfected HIV and HIV/HCV coinfected subjects with undetected HIV viral load. To determine the impact of coinfection on cognition, subjects were evaluated in 7 domains for neuropsychological (NP) performance, which was summarized as global deficit scores (GDS). Gene expression analysis of CD14+ monocytes from coinfected subjects revealed an elevated type 1 interferon (IFN) response profile unique to coinfection. For both CD4 and CD8 T cells, coinfection triggered significantly increased expression of activation markers CD38 and HLA-DR. In the coinfected group, mild cognitive impairment was associated with a type 1 IFN monocyte response but not plasma lipopolysaccharide. These observations raise the possibility that cognitive impairment evident in the HIV/HCV population is associated with the IFN response detected in coinfected individuals. Monocytes isolated from healthy controls (n=17), HCV monoinfected (n=19) and HIV/HCV coinfected (n=17) were analyzed for gene expression using high-density microarrays. Whole blood was collected in Vacutainer CPT tubes (BD Biosciences) and PBMCs were enriched by centrifugation. Typically, three million CD14+ monocytes were isolated from 30 ml of whole blood using an anti-CD14 monoclonal antibody immunomagnetic - ferrous bead conjugate according to the manufacturer’s instructions (Miltenyi Biotech). Monocyte purity exceeded 97% with <1% T or B cell contamination as determined by flow cytometry. Monocyte RNA was isolated using a Qiagen RNeasy Micro Kit with an RNA integrity value exceeding 9. Complementary DNA was synthesized and labeled with biotin (iExpress iAmplify kit, Applied Microarrays) and hybridized to Codelink Whole Human Genome Bioarrays (55K probes, Applied Microarrays). Slides were scanned (Axon GenePix 4000B, Molecular Devices), analyzed (CodeLink Expression Software Kit v4.1) and microarray data were normalized with loess normalization using R and Bioconductor package. Determination of differential gene expression and multiple testing correction / false discovery rate adjustments were performed using GeneSpring GX 7.3 software package (Agilent). Microarray data was analyzed using a variety of custom data analytic techniques for gene expression profile identification as described previously. Correlations were determined by Spearman rank correlation coefficient.

Project description:HIV-1 persists in cellular reservoirs despite effective antiretroviral therapy (ART). CD4+ T cells are the well-known reservoir, but there is growing evidence that myeloid cells, including circulating monocytes, are also a clinically relevant reservoir. However, it is unclear what are preferentially infected monocyte subsets in vivo. Here, we show that a monocyte fraction expressing the stem cell marker CD34 is more susceptible to HIV-1 infection than the CD34-negative major subset. In ART-untreated viremic patients, CD34+ fraction increased in the percentage in total monocytes, and harbored more proviral DNA than the major subset. Consistent with this, when compared to the major subset, CD34+ fraction expressed HIV-1 receptors (CD4 and CCR5) at higher levels and HIV-1 restriction factors (MX2 and SAMHD1) at lower levels. Interestingly, proviral DNA was detected in CD34+ fraction of ART-treated virologically suppressed patients. CD34+ monocytes were also present in lymph nodes, and expressed CD4 and CCR5 at higher levels than the major subset, as observed for peripheral blood. Moreover, CD34+ monocytes present in peripheral blood and lymph nodes highly expressed CCR7 and sphingosine-1-phosphate receptor 1 (S1PR1), critical regulators of in vivo cellular trafficking. Our findings suggest that circulating CD34+ monocytes are infected with residual HIV-1 after migrating into tissues including lymph nodes and return to circulation, which explains the detection of proviral DNA in the cells even after long-term ART.

Project description:Background. HIV-infected individuals on antiretroviral therapy (HIV/ART) experience higher levels of non-AIDS morbidity than uninfected people, which is believed to be driven by inflammation that persists despite viral suppression. Elevations in plasma cytokines, coagulation markers and both innate and adaptive immune cell activation during untreated infection are often incompletely reversed by ART and associated with these morbidities. Monocytes/macrophages play a central role in many of these complications including neurocognitive and cardiovascular disease. Results. We investigated monocyte surface markers, gene expression and plasma cytokines in 11 HIV-infected older individuals (median age 53 years) who started therapy with low CD4 counts (median 129 cells/ul), with elevated hsCRP (≥2mg/L) despite long-term ART (median 7.4 years), along with age, gender, race and smoking status-matched controls. Major monocyte subsets (based on CD14/CD16/CD163) were not different from controls, but surface levels differed for CD163 (p=0.022), PD1 (p=0.015) and a trend for tissue factor (p=0.098). As a group, HIV/ART subjects had elevated levels of plasma CCL2 (MCP-1; p=0.0001), CXCL9 (MIG; p=0.04) and sIL2R (p=0.015), which were highly correlated, whereas sCD14 and several other markers were not significantly elevated. However, principal component analysis of soluble markers revealed that about half of HIV/ART subjects clustered with controls, whereas the remainder were distinct, driven by IL-10, CCL11, CXCL10, CXCL11 as well as CCL2, CXCL9 and sIL2R. Outlier subjects were significantly older than those who clustered with controls. Gene expression analysis unexpectedly revealed downregulation in HIV/ART monocytes of multiple genes linked to immune functions including inflammation, immune cell development and cell-cell signaling. Conclusions. These results reveal a novel pattern of immune dysregulation involving both aberrant inflammation and monocyte dysfunction, which suggests complex mechanisms linking monocytes and HIV/ART comorbidities.