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Genetic variation in the gene LRP2 increases relapse risk in multiple sclerosis

journal contribution
posted on 2023-05-19, 11:22 authored by Yuan ZhouYuan Zhou, Graves, JS, Steve Simpson JRSteve Simpson JR, Jac CharlesworthJac Charlesworth, Ingrid van der MeiIngrid van der Mei, Waubant, E, Barcellos, LF, Belman, A, Krupp, L, Lucas, R, Ponsonby, A-L, Bruce TaylorBruce Taylor
Background: Due to the lack of prospective studies with longitudinal data on relapse, past genetic studies have not attempted to identify genetic factors that predict relapse risk (the primary endpoint of many pivotal clinical trials testing the efficacy of multiple sclerosis (MS) disease-modifying drugs) at a genome-wide scale.

Methods: We conducted a genome-wide association analysis (GWAS) to identify genetic variants that predict MS relapse risk, using a three-stage approach. First, GWAS was conducted using the southern Tasmania MS Longitudinal Study with 141 cases followed prospectively for a mean of 2.3 years. Second, GWAS was conducted using the Ausimmune Longitudinal Study with 127 cases having a classic first demyelinating event followed for 5 years from onset. Third, the top hits with p<5.0×10-6 from the first two stages were combined with a longitudinal US paediatric MS cohort with 181 cases followed for 5 years after onset. Predictors of time to relapse were evaluated by a mixed effects Cox model. An inverse variance fixed effects model was then used to undertake a meta-analysis.

Results: In the pooled results, using these three unique longitudinal MS cohorts, we discovered one novel locus (LRP2; most significant single nucleotide polymorphism rs12988804) that reached genome-wide significance in predicting relapse risk (HR=2.18, p=3.30×10-8). LRP2 is expressed on the surface of many central nervous system cells including neurons and oligodendrocytes and is a critical receptor in axonal guidance.

Conclusions: The finding of a genetic locus that has extensive effects on neuronal development and repair is of interest as a potential modulator of MS disease course.

History

Publication title

Journal of Neurology, Neurosurgery and Psychiatry

Volume

88

Issue

10

Pagination

864-868

ISSN

0022-3050

Department/School

Menzies Institute for Medical Research

Publisher

B M J Publishing Group

Place of publication

British Med Assoc House, Tavistock Square, London, England, Wc1H 9Jr

Rights statement

© 2017 Article authors

Repository Status

  • Restricted

Socio-economic Objectives

Clinical health not elsewhere classified

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