Project description:Effects of Injectable DMPA and Combined Oral Contraceptive Use on HIV Susceptibility Factors in Pig-tailed Macaques

Project description:Our earlier studies in pig-tailed macaques demonstrated varying SHIV susceptibility during the menstrual cycle, likely caused by cyclic variations in immune responses in the female genital tract. There is concern that high-dose, long-lasting, injectable progestin-based contraception could mimic the luteal phase and predispose women to HIV-1 acquisition and transmission. In this study, we adopted a systems biology approach employing proteomics (tandem mass spectrometry), transcriptomics (RNA microarray hybridization), and other specific protein assays (enzyme-linked immunosorbent assays and multiplex chemokine-cytokine measurements) to characterize the effects of hormonal changes on the expression of innate factors and secreted proteins in the macaque vagina. Several antiviral factors and pathways (including acute phase response signaling and complement system) were overexpressed in the follicular phase. Conversely, during the luteal phase there were factors overexpressed (including moesins, syndecans, integrins, among others) that could play direct or indirect roles in enhancing HIV-1 infection. Thus, our study showed that specific pathways and proteins/genes might be working in tandem to regulate innate immunity, thus fostering further investigation and future design of approaches to help counter HIV-1 acquisition in the female genital tract. Samples were hybridized to Affymetrix GeneChip® Rhesus Macaque Genome Arrays. Vaginal pinch biopsies were collected from 12 pig-tailed macaques at both the follicular and luteal phases. The data from one animal suggested low RNA quality and was excluded.

Project description:Macaque species share over 93% genome homology with humans and develop many disease phenotypes similar to those of humans, making them valuable animal models for the study of human diseases (e.g.,HIV and neurodegenerative diseases). However, the quality of genome assembly and annotation for several macaque species lags behind the human genome effort. To close this gap and enhance functional genomics approaches, we employed a combination of de novo linked-read assembly and scaffolding using proximity ligation assay (HiC) to assemble the pig-tailed macaque (Macaca nemestrina) genome. This combinatorial method yielded large scaffolds at chromosome-level with a scaffold N50 of 127.5 Mb; the 23 largest scaffolds covered 90% of the entire genome. This assembly revealed large-scale rearrangements between pig-tailed macaque chromosomes 7, 12, and 13 and human chromosomes 2, 14, and 15. We subsequently annotated the genome using transcriptome and proteomics data from personalized induced pluripotent stem cells (iPSCs) derived from the same animal. Reconstruction of the evolutionary tree using whole genome annotation and orthologous comparisons among three macaque species, human and mouse genomes revealed extensive homology between human and pig-tailed macaques with regards to both pluripotent stem cell genes and innate immune gene pathways. Our results confirm that rhesus and cynomolgus macaques exhibit a closer evolutionary distance to each other than either species exhibits to humans or pig-tailed macaques. These findings demonstrate that pig-tailed macaques can serve as an excellent animal model for the study of many human diseases particularly with regards to pluripotency and innate immune pathways.

Project description:Monocytes have been categorized in three main subpopulations based on CD14 and CD16 surface expression. Classical monocytes are the most abundant subset in the blood. They express a CD14+CD16-CCR2+ phenotype, which confers on them the ability to migrate to inflammatory sites by quickly responding to CCL2 signaling. Here we identified and characterized the surge and expansion of a novel monocyte subset during SIV and HIV infection. They were undistinguishable from classical monocytes regarding CD14 and CD16 expression, but did not express surface CCR2. Transcriptome analysis of sorted cells confirmed that they represent a distinct subpopulation that expresses lower levels of inflammatory cytokines and activation markers than their CCR2+ counterparts. They exhibited impaired phagocytosis and deficient chemotaxis in response to CCL2 and CCL7, besides being refractory to SIV infection. We named these cells atypical CCR2- classical (ACC) monocytes, and believe they play an important role in AIDS pathogenesis, possibly reflecting an anti-inflammatory response against the extreme immune activation observed during SIV and HIV infection. Antiretroviral therapy caused this population to decline in both macaque and human subjects, suggesting that this atypical phenotype may be induced by viral replication. Expression profiling by NanoString nCounter gene expression system. Classical monocytes (CD14++CD16-) from six SIV-infected macaques (day 14 post inoculation) were sorted in two groups according to CCR2 expression.

Project description:Our earlier studies in pig-tailed macaques demonstrated varying SHIV susceptibility during the menstrual cycle, likely caused by cyclic variations in immune responses in the female genital tract. There is concern that high-dose, long-lasting, injectable progestin-based contraception could mimic the luteal phase and predispose women to HIV-1 acquisition and transmission. In this study, we adopted a systems biology approach employing proteomics (tandem mass spectrometry), transcriptomics (RNA microarray hybridization), and other specific protein assays (enzyme-linked immunosorbent assays and multiplex chemokine-cytokine measurements) to characterize the effects of hormonal changes on the expression of innate factors and secreted proteins in the macaque vagina. Several antiviral factors and pathways (including acute phase response signaling and complement system) were overexpressed in the follicular phase. Conversely, during the luteal phase there were factors overexpressed (including moesins, syndecans, integrins, among others) that could play direct or indirect roles in enhancing HIV-1 infection. Thus, our study showed that specific pathways and proteins/genes might be working in tandem to regulate innate immunity, thus fostering further investigation and future design of approaches to help counter HIV-1 acquisition in the female genital tract.

Project description:Probiotic and Prebiotic Supplementation of Antiretroviral Therapy Improves Gastrointestinal Immunity in SIV-infected Macaques

Project description:Despite extensive studies suggesting increased susceptibility to HIV during the secretory phase of the menstrual cycle, there is limited knowledge of the molecular mechanisms involved. We aimed to explore the ectocervical and endocervical tissue transcriptomes during the proliferative and secretory phases of the cycle using RNA sequencing (RNAseq) to identify potential signatures of susceptibility to HIV. We utilized hysterectomy tissue specimens from subjects not using hormonal contraception/treatment for gynecological conditions. Ectocervical (n=10) and endocervical tissues (n=15) were used for this study. The cycle phase was determined by assessing the histopathology of hematoxylin-and-eosin stained sections of the endometrial mucosa by gynecologic pathologists. Total RNA was isolated from tissues frozen in RNAlater (Ambion) following manufacturer’s instructions (Qiagen RNeasy Fibrous Tissue Mini Kit). After extraction, the quality and the purity of the RNA were measured by the Agilent Bioanalyzer (Agilent, Santa Clara, CA). RNA was labeled and sequenced at the RU Genomics center by using Illumina TruSeq technology (75bp, >30M coverage). The data were analyzed using Ingenuity Pathway Analysis (IPA) software (QIAGEN Inc., https://www.qiagenbioinformatics.com/products/ingenuitypathway-analysis). To inquire into changes in gene expression irrespectively of p-value cut off, pre-ranked genes based on proliferative vs. secretory phase expression were subjected to Gene Set Enrichment Analysis (GSEA) against the Hallmark Gene sets (H) and Immunologic Signatures Gene sets (collection C7) from the Molecular Signatures Database (MSigDB)(http://software.broadinstitute.org/gsea/msigdb/index.jsp). Our data show menstrual cycle phase-associated changes in the transcriptomic landscape of the endocervix and ectocervix, some of which may contribute to changes in HIV susceptibility.

Project description:Monocytes have been categorized in three main subpopulations based on CD14 and CD16 surface expression. Classical monocytes are the most abundant subset in the blood. They express a CD14+CD16-CCR2+ phenotype, which confers on them the ability to migrate to inflammatory sites by quickly responding to CCL2 signaling. Here we identified and characterized the surge and expansion of a novel monocyte subset during SIV and HIV infection. They were undistinguishable from classical monocytes regarding CD14 and CD16 expression, but did not express surface CCR2. Transcriptome analysis of sorted cells confirmed that they represent a distinct subpopulation that expresses lower levels of inflammatory cytokines and activation markers than their CCR2+ counterparts. They exhibited impaired phagocytosis and deficient chemotaxis in response to CCL2 and CCL7, besides being refractory to SIV infection. We named these cells atypical CCR2- classical (ACC) monocytes, and believe they play an important role in AIDS pathogenesis, possibly reflecting an anti-inflammatory response against the extreme immune activation observed during SIV and HIV infection. Antiretroviral therapy caused this population to decline in both macaque and human subjects, suggesting that this atypical phenotype may be induced by viral replication. Expression profiling by NanoString nCounter gene expression system.

Project description:This study describes a circulating miRNA signature of acute retroviral infection, which may include candidate diagnostic or prognostic miRNAs for lentivirus-associated neurologic conditions. Plasma samples were taken from six macaques prior to infection and at ten days post-infection. Three macaques each went on to develop no or severe encephalitis. miRNA profiles were generated for each animal before and 10 days after SIV infection.

Project description:miRNA profiling of Macaca nemestrina plasma samples: before SIV infection and during acute infection