Loss‐of‐function mutations in SGCE found in Japanese patients with myoclonus‐dystonia

SGCE myoclonus‐dystonia is a monogenic form of dystonia with an autosomal dominant mode of inheritance that co‐occurs with a myoclonic jerk. In this study, we present 12 Japanese patients from nine families with this disease. Targeted next‐generation sequencing covering major causative genes for mon...

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Veröffentlicht in:Clinical genetics 2023-02, Vol.103 (2), p.209-213
Hauptverfasser: Azuma, Kenko, Horisawa, Shiro, Mashimo, Hideaki, Fukuda, Mitsumasa, Kumada, Satoko, Kawamata, Takakazu, Taira, Takaomi, Akagawa, Hiroyuki
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Sprache:eng
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Zusammenfassung:SGCE myoclonus‐dystonia is a monogenic form of dystonia with an autosomal dominant mode of inheritance that co‐occurs with a myoclonic jerk. In this study, we present 12 Japanese patients from nine families with this disease. Targeted next‐generation sequencing covering major causative genes for monogenic dystonias identified nine distinct SGCE mutations from each of the families: three nonsense, two frameshift, two missense, one in‐frame 15 bp deletion, and one splice donor site mutations, of which four were previously unreported. One missense mutation (c.662G>T, p.Gly221Val) was located at the 3′ end of exon 5 (NM_001099400), which was predicted to cause aberrant splicing according to in silico predictions. Minigene assays performed together with the c.825+1G>C mutation demonstrated complete skipping of exon 5 and 6, respectively, in their transcripts. The other missense (c.1345A>G, p.Met449Val) and 15 bp deletion (c.168_182del, p.Phe58_Leu62del) mutations showed a significant reduction in cell membrane expression via HiBiT bioluminescence assay. Therefore, we concluded that all the detected mutations were disease‐causing. Unlike the other detected mutations, p.Met449Val affects only isoform 3 (NP_001092870 encoded by NM_001099400) among the variously known isoforms of SGCE. This isoform is brain‐specific and is mostly expressed in the cerebellum, which supports recent studies showing that cerebellar dysfunction is a key element in the pathophysiology of SGCE myoclonus‐dystonia.
ISSN:0009-9163
1399-0004
DOI:10.1111/cge.14233