Multi-Omic characterization of the effects of Ocrelizumab in patients with relapsing-remitting multiple sclerosis.

Publication Title

Journal of the neurological sciences

Authors

Sergey A Kornilov, Institute for Systems Biology, Seattle, WAFollow
Nathan D Price, Institute for Systems Biology, 401 Terry Avenue N, Seattle, WA, 98109, USA.Follow
Richard Gelinas, Institute for Systems Biology, WA, USA.
Juan Acosta
Mary E Brunkow, Institute for Systems Biology, Seattle, Washington, United States of AmericaFollow
Tiffany Gervasi-Follmar, Providence Multiple Sclerosis Center, OR, USA.Follow
Ryan C Winger
Dmitri Aldershoff
Christopher Lausted, Institute for Systems Biology, WA, USA.
Pamela Troisch, Institute for Systems Biology, WA, USA.
Brett Smith, Institute for Systems BiologyFollow
James R Heath, Institute for Systems Biology, Seattle, WA 98109Follow
P Repovic, Swedish Medical Center, WA, USA.Follow
Stanley Cohan, Providence Multiple Sclerosis Center, USA.Follow
Andrew T Magis, Institute for Systems Biology, Seattle, WA, USAFollow

Document Type

Article

Publication Date

12-15-2024

Keywords

washington; isb; swedish; oregon; Humans; Antibodies, Monoclonal, Humanized; Multiple Sclerosis, Relapsing-Remitting; Female; Adult; Male; Immunologic Factors; Middle Aged; Biomarkers; Magnetic Resonance Imaging; B-Cell Activating Factor; Proteome; Treatment Outcome; Multiomics

Abstract

The study examined changes in the plasma proteome, metabolome, and lipidome of N = 14 patients with relapsing-remitting multiple sclerosis (RRMS) initiating treatment with ocrelizumab, assayed at baseline, 6 months, and 12 months. Analyses of >4000 circulating biomarkers identified depletion of B-cell associated proteins as the early effect observed following ocrelizumab (OCR) initiation, accompanied by the reduction in plasma abundance of cytokines and cytotoxic proteins, markers of neuronaxonal damage, and biologically active lipids including ceramides and lysophospholipids, at 6 months. B-cell depletion was accompanied by decreases in B-cell receptor and cytokine signaling but a pronounced increase in circulating plasma B-cell activating factor (BAFF). This was followed by an upregulation of a number of signaling and metabolic pathways at 12 months. Patients with higher baseline brain MRI lesion load demonstrated both higher levels of cytotoxic and structural proteins in plasma at baseline and more pronounced biomarker change trajectories over time. Digital cytometry identified a putative increase in myeloid cells and a pro-inflammatory subset of T-cells. Therapeutic effects of ocrelizumab extend beyond CD20-mediated B-cell lysis and implicate metabolic reprogramming, juxtaposing the early normalization of immune activation, cytokine signaling and metabolite and lipid turnover in periphery with changes in the dynamics of immune cell activation or composition. We identify BAFF increase following CD20 depletion as a tentative compensatory mechanism that contributes to the reconstitution of targeted B-cells, necessitating further research.

Area of Special Interest

Neurosciences (Brain & Spine)

Specialty/Research Institute

Institute for Systems Biology

Specialty/Research Institute

Neurosciences

DOI

10.1016/j.jns.2024.123303