grant

Defining the impact of cannabinoids on the latent HIV reservoir through multi-omic analysis

Organization UNIV OF NORTH CAROLINA CHAPEL HILLLocation CHAPEL HILL, UNITED STATESPosted 1 Jul 2021Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY2025AIDS VirusAP-1AP-1 Enhancer-Binding ProteinAP1AP1 proteinAcquired Immune Deficiency Syndrome VirusAcquired Immunodeficiency Syndrome VirusActivator Protein-1Anti-InflammatoriesAnti-Inflammatory AgentsAnti-inflammatoryAssayBioassayBiologic ModelsBiological AssayBiological ModelsBlood SampleBlood specimenCB2CB2 ReceptorCB2RCD4 CellsCD4 Positive T LymphocytesCD4 T cellsCD4 helper T cellCD4 lymphocyteCD4+ T-LymphocyteCD4-Positive LymphocytesCNR2CNR2 geneCannabinoid Receptor CB2CannabinoidsCell BodyCell Communication and SignalingCell SignalingCell modelCellsCellular AssayCellular modelCharacteristicsChromatin StructureChronicClinicalCollectionDNADataData SetDeoxyribonucleic AcidEnhancer-Binding Protein AP1Expression SignatureGene ExpressionGene Expression ProfileGene TranscriptionGenetic TranscriptionGenomicsGoalsHIVHIV InfectionsHTLV-III InfectionsHTLV-III-LAV InfectionsHuman Immunodeficiency VirusesHuman T-Lymphotropic Virus Type III InfectionsImmuneImmunesImmunomodulationIn VitroIn vivo analysisIndividualIntracellular Communication and SignalingInvestigationLAV-HTLV-IIILocationLymphadenopathy-Associated VirusMaintenanceMethodsModel SystemModelingMolecularNatureOutcomePBMCPathway interactionsPeripheral Blood Mononuclear CellPersonsPhasePhenotypePopulationPropertyProvirusesRNA ExpressionRoleSamplingShapesSignal InductionSignal PathwaySignal TransductionSignal Transduction SystemsSignalingT-CellsT-LymphocyteT4 CellsT4 LymphocytesTestingTimeTranscriptTranscriptionTranscription Factor AP-1ViralViral GenesViral reservoirVirus reservoirVirus-HIVabused drugabused drugsbiological signal transductioncannabinoid receptor 2cannabinoid receptor type 2cell assaycohortdata integrationdesigndesigningdrug abuseddrug of abusedrugs abuseddrugs of abuseepigenomeepigenomicsgene expression patterngene expression signatureglobal gene expressionglobal transcription profileimmune modulationimmune regulationimmunologic reactivity controlimmunomodulatoryimmunoregulationimmunoregulatoryin vivoin vivo evaluationin vivo testinginsightlatency/reactivationlatent HIV reservoirlatent HIV-1 reservoirlatent HIV1 reservoirmultiomicsmultiple omicsnovelpanomicspathwayreactivation from latencyscATAC sequencingscATAC-seqscRNA sequencingscRNA-seqsingle cell ATAC-seqsingle cell ATAC-sequencingsingle cell Assay for Transposase Accessible Chromatin sequencingsingle cell RNA-seqsingle cell RNAseqsingle cell expression profilingsingle cell genomicssingle cell sequencing assay for transposase accessible chromatinsingle cell transcriptomic profilingsingle-cell Assay for Transposase-Accessible Chromatin with sequencingsingle-cell RNA sequencingsingle-cell assay for transposase-accessible chromatin using sequencingsingle-cell assay for transposase-accessible chromatin-seqsocial rolethymus derived lymphocytetooltranscriptional profiletranscriptional signaturetranscriptometranscriptomics
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Full Description

Project summary
The latent reservoir is the primary barrier to curing HIV, but little is known about the nature of this reservoir or
the molecular mechanisms that regulate it. Increasing evidence suggests that the size and nature of this reservoir
is impacted by drugs of abuse. Cannabinoid (CB) abuse, in particular, is prevalent amongst people with HIV
(PWH), but the impact of CBs on the latent HIV reservoir has not been investigated. CBs are known to have
immuno-modulatory and anti-inflammatory activities through activation of the CB2 receptor that is widely
expressed in immune cells, including CD4 T cells. Our hypothesis is that CB exposure during HIV infection
alters the size, location and transcriptomic phenotype of the latent HIV reservoir through CB2-dependent
activation of the AP-1 transcription factor in CD4 T cells. Consistent with this hypothesis we have recently
discovered that cannabinoids promote reactivation of HIV from latency in a T cell model. Defining the impact of
CBs on the latent HIV reservoir will be critical to designing appropriate approaches to clear the reservoir from
PWH who use CBs. To achieve this goal we propose to use cutting edge methods from the fields of single cell
multi-omic analysis to characterize the effect of CBs on the latent HIV reservoir, and to test the functional
role of CB-activated pathways in HIV latency. In the R61 phase, we will use a primary cell HIV latency model
to define the impact of CB exposure on the transcriptome and epigenome of latently infected cells. Additionally,
we will use a cutting-edge single cell HIV assay to quantify the size and location of the intact HIV reservoir in a
cohort of CB-using PWH compared to non CB-using PWH. For the R33 phase, we will combine the results from
these studies with a detailed single cell genomic analysis of identify CB-regulated transcripts in the PBMCs and
CD4 T cells from the CB-using PWH cohort. By integrating these datasets we aim to identify CB-regulated
pathways that regulate the size and subcellular location of the HIV reservoir. Overall these results will advance
our understanding of how CBs interact with the latent HIV reservoir at the molecular level.

Grant Number: 5R33DA053599-05
NIH Institute/Center: NIH
Principal Investigator: Edward Browne

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