A Whole-Genome Sequencing Study Implicates GRAMD1B in Multiple Sclerosis Susceptibility

Overview

Journal Genes (Basel)

Publisher MDPI

Date 2022 Dec 23

PMID 36553660

Authors

Federica Esposito

Ana Maria Osiceanu

Melissa Sorosina

Linda Ottoboni

Bryan Bollman

Silvia Santoro

Barbara Bettegazzi

Andrea Zauli

Ferdinando Clarelli

Elisabetta Mascia

Andrea Calabria

Daniele Zacchetti

Ruggero Capra

Maurizio Ferrari

Paolo Provero

Dejan Lazarevic

Davide Cittaro

Paola Carrera

Nikolaos Patsopoulos

Daniela Toniolo

A Dessa Sadovnick

Gianvito Martino

Philip L De Jager

Giancarlo Comi

Elia Stupka

Carles Vilarino-Guell

Laura Piccio

Filippo Martinelli Boneschi

Affiliations

Soon will be listed here.

Abstract

While the role of common genetic variants in multiple sclerosis (MS) has been elucidated in large genome-wide association studies, the contribution of rare variants to the disease remains unclear. Herein, a whole-genome sequencing study in four affected and four healthy relatives of a consanguineous Italian family identified a novel missense c.1801T > C (p.S601P) variant in the gene that is shared within MS cases and resides under a linkage peak (LOD: 2.194). Sequencing in 91 familial MS cases revealed two additional rare missense and two splice-site variants, two of which (rs755488531 and rs769527838) were not found in 1000 Italian healthy controls. Functional studies demonstrated that , a gene with unknown function in the central nervous system (CNS), is expressed by several cell types, including astrocytes, microglia and neurons as well as by peripheral monocytes and macrophages. Notably, GRAMD1B was downregulated in vessel-associated astrocytes of active MS lesions in autopsied brains and by inflammatory stimuli in peripheral monocytes, suggesting a possible role in the modulation of inflammatory response and disease pathophysiology.

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