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Cell-type- and state-resolved transcriptomics uncovers distinct T cell and monocyte dysregulation in multiple sclerosis.

Abstract

Multiple sclerosis (MS) is a complex immune-mediated disorder with polygenic and multicellular underpinnings, necessitating cell-type-specific molecular studies to delineate dysregulated pathways. Here, we profile 1,075 transcriptomes from 167 patients with MS and 42 healthy participants across six peripheral immune cell-type-states. MS-associated transcriptional differences are more pronounced in primary (unstimulated) immune cells than in in vitro-stimulated counterparts. We identify shared and cell-type-specific transcriptional alterations at the level of genes, pathways, and co-expressed gene modules, prioritizing regulators, such as ZBTB16, across T cells and monocytes, and replicating six MS-associated modules in independent datasets. The top T cell module is enriched for MS susceptibility genes and affects proliferation. The top monocyte module implicates dysregulated TNF-alpha/NF-kappaB signaling, for which an in silico drug screen and in vitro validation nominate alvespimycin as a candidate modulator. Together, these findings define stable peripheral immune dysregulation signatures in MS that may serve as diagnostic or prognostic biomarkers in at-risk individuals.

Authors: Roostaei T, Fujita M, Touil H, Kivisäkk P, McCabe C, Nejad P, Sabrin A, Garcia FG, van Dorp CH, Felsky D, Vlachos IS, Hui D, Fransson J, Macnair W, Williams A, Zhang L, Zhu W, Xia Z, Zujovic V, Patsopoulos NA, Yates AJ, Kuchroo VK, Chitnis T, Wei
Journal: Cell Rep;2026Jun05; 45 (6) 117417. doi:10.1016/j.celrep.2026.117417
Year: 2026
PubMed: PMID: 42247289 (Go to PubMed)