C4 genetic structural variations affect multiple sclerosis risk and progression
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Objective
Major histocompatibility complex (MHC) locus carries a significant genetic risk burden for multiple sclerosis (MS). Here we investigate the structurally diverse complement component 4 ( C4 ) alleles within the MHC in MS development and disease progression.
Methods
We imputed and examined C4 alleles based on data from two case-control cohorts (N 1 = 3252 cases and 5725 controls; N 2 = 8978 cases and 6976 controls), a clinical MS cohort (N 3 = 2387 cases) and a cohort with immune cell gene expression data (N 4 = 33 cases and 33 controls). We have performed gene-level analysis to investigate the shared genetic landscape between MS susceptibility (N= 14802 cases and 26703 controls) and plasma C4 protein (N= 68716).
Results
Our data showed that C4 genetic structural variants were associated with significant changes in MS susceptibility and disability progression. For instance, higher C4AL copy number burden was associated with lower MS susceptibility (fixed effect meta-analysis odds ratio= 0.89, P= 5.65×10 −6 ) independent of established MHC risk variants such as HLA-DRB1 *15:01. Higher C4AL copy number was also associated with reduced hazard of reaching MS disability milestones such as Expanded Disability Status Scale 3 (hazard ratio= 0.79, P= 9.0×10 −15 ). In addition, we found C4 alleles may also modulate C4 expression in disease-relevant immune cell types such as CD8+ T cells. Further, we identified that candidate genes shared between MS susceptibility and plasma C4 protein level were enriched in biological pathways of immune regulation, Epstein-Barr virus infection and other autoimmune diseases such as lupus.
Interpretation
These findings support future investigations of the C4 genetic structural variants as potential mechanistic and therapeutic targets in MS pathogenesis and disease progression.
