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. 2021 Dec;100(6):722-730.
doi: 10.1111/cge.14066. Epub 2021 Oct 7.

Pathogenic variants in the survival of motor neurons complex gene GEMIN5 cause cerebellar atrophy

Ken Saida  1 Junya Tamaoki  2 Masayuki Sasaki  3 Muzhirah Haniffa  4 Eriko Koshimizu  1 Toru Sengoku  5 Hiroki Maeda  2 Masahiro Kikuchi  6 Haruna Yokoyama  3 Masamune Sakamoto  1 Kazuhiro Iwama  1 Futoshi Sekiguchi  1 Kohei Hamanaka  1 Atsushi Fujita  1 Takeshi Mizuguchi  1 Kazuhiro Ogata  5 Noriko Miyake  1   7 Satoko Miyatake  1 Makoto Kobayashi  2 Naomichi Matsumoto  1
Affiliations

Pathogenic variants in the survival of motor neurons complex gene GEMIN5 cause cerebellar atrophy

Ken Saida et al. Clin Genet. 2021 Dec.

Abstract

Cerebellar ataxia is a genetically heterogeneous disorder. GEMIN5 encoding an RNA-binding protein of the survival of motor neuron complex, is essential for small nuclear ribonucleoprotein biogenesis, and it was recently reported that biallelic loss-of-function variants cause neurodevelopmental delay, hypotonia, and cerebellar ataxia. Here, whole-exome analysis revealed compound heterozygous GEMIN5 variants in two individuals from our cohort of 162 patients with cerebellar atrophy/hypoplasia. Three novel truncating variants and one previously reported missense variant were identified: c.2196dupA, p.(Arg733Thrfs*6) and c.1831G > A, p.(Val611Met) in individual 1, and c.3913delG, p.(Ala1305Leufs*14) and c.4496dupA, p.(Tyr1499*) in individual 2. Western blotting analysis using lymphoblastoid cell lines derived from both affected individuals showed significantly reduced levels of GEMIN5 protein. Zebrafish model for null variants p.(Arg733Thrfs*6) and p.(Ala1305Leufs*14) exhibited complete lethality at 2 weeks and recapitulated a distinct dysplastic phenotype. The phenotypes of affected individuals and the zebrafish mutant models strongly suggest that biallelic loss-of-function variants in GEMIN5 cause cerebellar atrophy/hypoplasia.

Keywords: GEMIN5; SMN; cerebellar atrophy; cerebellar hypoplasia; zebrafish.

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