Reviewed by Sarah Alter, Ph.D. — Scientific Affairs, OrganaBio. 15 years of immunology research spanning autoimmunity, cancer, and infectious disease. University of Miami Miller School of Medicine. Registered Patent Agent.
HIV donor PBMCs serve multiple functions in translational immunology research: modeling CD4+ T cell depletion and immune reconstitution, studying viral latency and reservoir biology, developing and testing broadly neutralizing antibodies (bNAbs), and characterizing the chronic immune activation that persists even in virally suppressed donors on antiretroviral therapy (ART). The distinction between viremic and ART-suppressed donors, and between treatment-naive and long-term-treated donors, determines which research questions each lot can address.
Immune Biology of HIV Relevant to Drug and Vaccine Research
HIV preferentially depletes CCR5+/CD4+ T cells, particularly central memory and effector memory subsets. Even under effective ART with undetectable viral loads, chronic immune activation persists: elevated CD8+ T cell activation markers (CD38, HLA-DR), exhaustion checkpoints (PD-1, TIGIT, LAG-3) on both CD4+ and CD8+ T cells, and NK cell anergy patterns (KIR downregulation, NKG2A upregulation) that differ from healthy donors. HIV reservoir quantification from resting CD4+ T cells is a primary endpoint in cure research, and PBMCs from ART-suppressed donors are required for reservoir reactivation assays (“kick and kill” or “block and lock” strategies).
OrganaBio HIV Donor Catalog
| Attribute | Available |
|---|---|
| Viral load status | Virally suppressed (ART) and viremic donors; documented per lot |
| CD4+ count documentation | ✓ Absolute CD4 count and CD4:CD8 ratio per lot |
| ART regimen | Documented (NRTI backbone, INSTI, PI, NNRTI history) |
| Time on ART | Available; short-term vs. long-term suppressed donors selectable |
| PBMC format | Cryopreserved; biosafety-cleared |
| Lot documentation | CoA, CD4 count, viral load, ART regimen, flow cytometry |
Key Cell Populations for HIV Research
- CD4+ T cells (total and subsets): Depleted in viremic disease; partially restored under ART; central memory (TCM) and transitional memory (TTM) subsets carry the latent reservoir in suppressed donors
- CD8+ T cells (HIV-specific): Chronically activated (CD38+/HLA-DR+); exhausted (PD-1hi/TIGIT+/LAG-3+); HIV-specific clones detectable via HLA-peptide tetramer staining
- NK cells: Anergic phenotype in chronic HIV (KIRs downregulated, NKG2A upregulated, FcRIII expression altered); ADCC function against HIV-infected cells relevant to bNAb-mediated clearance
- Monocytes: Chronically activated (CD16+ non-classical monocyte expansion); contribute to systemic inflammation in ART-suppressed HIV
- Regulatory T cells: Elevated Treg frequency in chronic HIV; contributes to immune exhaustion and impaired viral clearance
Research Applications
- HIV reservoir quantification: QVOA (quantitative viral outgrowth assay) and TILDA assay using resting CD4+ T cells from ART-suppressed donors
- Latency reversal agent (LRA) testing: “kick and kill” strategy validation in ART-suppressed PBMCs
- Broadly neutralizing antibody (bNAb) ADCC assays: NK cell-mediated killing of HIV-infected or HIV-peptide-pulsed target cells
- T cell exhaustion reversal studies: checkpoint inhibitor effects on HIV-specific CD8+ T cell function
- Immune activation biomarker profiling: CD38/HLA-DR on CD8+ T cells as surrogate for residual inflammation in ART-suppressed cohorts
- NK cell dysfunction characterization for NK cell-based HIV cure strategies