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.
Multiple sclerosis is an autoimmune demyelinating disease of the central nervous system in which autoreactive T cells and B cells breach immune tolerance to myelin antigens. Disease-state PBMCs from MS donors carry CNS-directed immune populations that cannot be recapitulated in healthy donor samples, making them essential for assay development across the expanding pipeline of B cell-depleting, S1P receptor-targeting, and CNS-penetrant therapies.
The Immunology of MS Relevant to Biomarker and Drug Research
The pathogenic axis in MS involves Th1 and Th17 cells reactive to myelin basic protein (MBP), myelin oligodendrocyte glycoprotein (MOG), and proteolipid protein (PLP). CD8+ cytotoxic T cells directly damage oligodendrocytes in active lesions. B cells contribute through anti-MOG and anti-aquaporin-4 antibodies in subsets and through antigen presentation to T cells independent of antibody production. Regulatory T cell suppression is impaired in active MS, and natural killer cell cytotoxicity patterns shift across disease subtypes and treatment status.
For researchers building pharmacodynamic assays around approved or investigational MS therapies, the treatment history of the donor matters as much as the diagnosis. Ocrelizumab-treated donors have near-total peripheral B cell depletion. Natalizumab-treated donors have elevated circulating CD4+ T cells due to integrin blockade. Untreated relapsing-remitting donors present a different baseline than progressive disease donors on siponimod or cladribine.
OrganaBio MS Donor Catalog
| Attribute | Available |
|---|---|
| MS subtypes | RRMS, SPMS, PPMS |
| Treatment-naïve donors | Available on request |
| Treatment-experienced donors | Ocrelizumab, natalizumab, dimethyl fumarate, siponimod documented |
| EDSS score documentation | Available on select lots |
| PBMC format | Cryopreserved; fresh on scheduled collections |
| HLA typing | Available; HLA-DRB1*15:01 (MS risk allele) selectable |
| Lot documentation | CoA, flow cytometry panel, diagnosis, disease stage, medications |
Key Cell Populations for MS Research
- CD4+ Th17 cells: Primary effector population driving lesion formation; IL-17A and GM-CSF secretion measurable in MS PBMCs ex vivo
- CD4+ Th1 cells: IFN-γ-producing; elevated in relapsing disease and partially normalized by high-efficacy therapies
- CD8+ cytotoxic T cells: Direct oligodendrocyte damage in grey matter lesions; clonally expanded in progressive MS
- B cells (CD19+/CD20+): Antigen presentation, pro-inflammatory cytokine secretion, meningeal aggregate formation; primary target of ocrelizumab and ofatumumab
- Regulatory T cells (FoxP3+): Functionally impaired suppression in active MS; restoration of Treg function is a pharmacodynamic endpoint for several pipeline candidates
- NK cells: Regulatory NK subsets (CD56bright) are immunosuppressive; cytotoxic NK subsets (CD56dim) shift in progressive disease
Research Applications
- Pharmacodynamic assays for B cell-depleting therapies (ocrelizumab, ofatumumab, ublituximab): B cell reconstitution kinetics, memory vs. naive B cell recovery
- Th17/Th1 polarization assays for S1P receptor modulators and JAK inhibitors in clinical development for progressive MS
- Treg functional restoration studies: suppression assay comparisons between treatment arms
- Neoantigen and myelin peptide T cell reactivity assays for tolerizing vaccine development
- NK cell biology studies in progressive MS, where NK regulatory function is most altered
- Companion diagnostic development for anti-CD20 therapy response prediction
Sourcing Considerations for MS PBMCs
Treatment history is the primary variable that determines lot suitability. For a B cell depletion PD assay, you need donors collected at defined intervals post-ocrelizumab infusion with documented B cell counts. For a Th17 functional assay, treatment-naïve or IFN-β-treated donors are preferable to natalizumab-treated donors whose T cell migration is pharmacologically altered. OrganaBio’s per-lot documentation captures medication history and disease staging to support this level of selection.