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Expanding the genetic and phenotypic landscape of replication factor C complex-related disorders: RFC4 deficiency is linked to a multisystemic disorder.

Authors :
Morimoto M
Ryu E
Steger BJ
Dixit A
Saito Y
Yoo J
van der Ven AT
Hauser N
Steinbach PJ
Oura K
Huang AY
Kortüm F
Ninomiya S
Rosenthal EA
Robinson HK
Guegan K
Denecke J
Subramony SH
Diamonstein CJ
Ping J
Fenner M
Balton EV
Strohbehn S
Allworth A
Bamshad MJ
Gandhi M
Dipple KM
Blue EE
Jarvik GP
Lau CC
Holm IA
Weisz-Hubshman M
Solomon BD
Nelson SF
Nishino I
Adams DR
Kang S
Gahl WA
Toro C
Myung K
Malicdan MCV
Source :
American journal of human genetics [Am J Hum Genet] 2024 Sep 05; Vol. 111 (9), pp. 1970-1993. Date of Electronic Publication: 2024 Aug 05.
Publication Year :
2024

Abstract

The precise regulation of DNA replication is vital for cellular division and genomic integrity. Central to this process is the replication factor C (RFC) complex, encompassing five subunits, which loads proliferating cell nuclear antigen onto DNA to facilitate the recruitment of replication and repair proteins and enhance DNA polymerase processivity. While RFC1's role in cerebellar ataxia, neuropathy, and vestibular areflexia syndrome (CANVAS) is known, the contributions of RFC2-5 subunits on human Mendelian disorders is largely unexplored. Our research links bi-allelic variants in RFC4, encoding a core RFC complex subunit, to an undiagnosed disorder characterized by incoordination and muscle weakness, hearing impairment, and decreased body weight. We discovered across nine affected individuals rare, conserved, predicted pathogenic variants in RFC4, all likely to disrupt the C-terminal domain indispensable for RFC complex formation. Analysis of a previously determined cryo-EM structure of RFC bound to proliferating cell nuclear antigen suggested that the variants disrupt interactions within RFC4 and/or destabilize the RFC complex. Cellular studies using RFC4-deficient HeLa cells and primary fibroblasts demonstrated decreased RFC4 protein, compromised stability of the other RFC complex subunits, and perturbed RFC complex formation. Additionally, functional studies of the RFC4 variants affirmed diminished RFC complex formation, and cell cycle studies suggested perturbation of DNA replication and cell cycle progression. Our integrated approach of combining in silico, structural, cellular, and functional analyses establishes compelling evidence that bi-allelic loss-of-function RFC4 variants contribute to the pathogenesis of this multisystemic disorder. These insights broaden our understanding of the RFC complex and its role in human health and disease.<br />Competing Interests: Declaration of interests The authors declare no competing interests.<br /> (Published by Elsevier Inc.)

Details

Language :
English
ISSN :
1537-6605
Volume :
111
Issue :
9
Database :
MEDLINE
Journal :
American journal of human genetics
Publication Type :
Academic Journal
Accession number :
39106866
Full Text :
https://doi.org/10.1016/j.ajhg.2024.07.008