Biallelic Variants in RBM42 Cause a Multisystem Disorder with Neurological, Facial, Cardiac, and Musculoskeletal Involvement

Overview

Journal Protein Cell

Publisher Oxford University Press

Specialties Biochemistry
Cell Biology

Date 2023 Jun 9

PMID 37294900

Authors

Yiyao Chen

Bingxin Yang

Xiaoyu Merlin Zhang

Songchang Chen

Minhui Wang

Liya Hu

Nina Pan

Shuyuan Li

Weihui Shi

Zhenhua Yang

Li Wang

Yajing Tan

Jian Wang

Yanlin Wang

Qinghe Xing

Zhonghua Ma

JinSong Li

He-Feng Huang

Jinglan Zhang

Chenming Xu

Affiliations

Soon will be listed here.

Abstract

Here, we report a previously unrecognized syndromic neurodevelopmental disorder associated with biallelic loss-of-function variants in the RBM42 gene. The patient is a 2-year-old female with severe central nervous system (CNS) abnormalities, hypotonia, hearing loss, congenital heart defects, and dysmorphic facial features. Familial whole-exome sequencing (WES) reveals that the patient has two compound heterozygous variants, c.304C>T (p.R102*) and c.1312G>A (p.A438T), in the RBM42 gene which encodes an integral component of splicing complex in the RNA-binding motif protein family. The p.A438T variant is in the RRM domain which impairs RBM42 protein stability in vivo. Additionally, p.A438T disrupts the interaction of RBM42 with hnRNP K, which is the causative gene for Au-Kline syndrome with overlapping disease characteristics seen in the index patient. The human R102* or A438T mutant protein failed to fully rescue the growth defects of RBM42 ortholog knockout ΔFgRbp1 in Fusarium while it was rescued by the wild-type (WT) human RBM42. A mouse model carrying Rbm42 compound heterozygous variants, c.280C>T (p.Q94*) and c.1306_1308delinsACA (p.A436T), demonstrated gross fetal developmental defects and most of the double mutant animals died by E13.5. RNA-seq data confirmed that Rbm42 was involved in neurological and myocardial functions with an essential role in alternative splicing (AS). Overall, we present clinical, genetic, and functional data to demonstrate that defects in RBM42 constitute the underlying etiology of a new neurodevelopmental disease which links the dysregulation of global AS to abnormal embryonic development.

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