|Title:||Novel SCA19/22-associated KCND3 mutations disrupt human K<inf>V</inf>4.3 protein biosynthesis and channel gating||Authors:||Fu, Ssu Ju
Zhong, Ciao Yu
Liu, Yo Tsen
Hsiao, Cheng Tsung
Soong, Bing Wen
Lu, Yi Hsiang
Jeng, Chung Jiuan
|Keywords:||channelopathy | ion channel | molecular genetics | protein misfolding | spinocerebellar ataxia||Issue Date:||1-Jan-2019||Source:||Human Mutation||Abstract:||
© 2019 Wiley Periodicals, Inc. Mutations in the human voltage-gated K+ channel subunit KV4.3-encoding KCND3 gene have been associated with the autosomal dominant neurodegenerative disorder spinocerebellar ataxia types 19 and 22 (SCA19/22). The precise pathophysiology underlying the dominant inheritance pattern of SCA19/22 remains elusive. Using cerebellar ataxia-specific targeted next-generation sequencing technology, we identified two novel KCND3 mutations, c.950 G>A (p.C317Y) and c.1123 C>T (p.P375S) from a cohort with inherited cerebellar ataxias in Taiwan. The patients manifested notable phenotypic heterogeneity that includes cognitive impairment. We employed in vitro heterologous expression systems to inspect the biophysical and biochemical properties of human KV4.3 harboring the two novel mutations, as well as two previously reported but uncharacterized disease-related mutations, c.1013 T>A (p.V338E) and c.1130 C>T (p.T377M). Electrophysiological analyses revealed that all of these SCA19/22-associated KV4.3 mutant channels manifested loss-of-function phenotypes. Protein chemistry and immunofluorescence analyses further demonstrated that these mutants displayed enhanced protein degradation and defective membrane trafficking. By coexpressing KV4.3 wild-type with the disease-related mutants, we provided direct evidence showing that the mutants instigated anomalous protein biosynthesis and channel gating of KV4.3. We propose that the dominant inheritance pattern of SCA19/22 may be explained by the dominant-negative effects of the mutants on protein biosynthesis and voltage-dependent gating of KV4.3 wild-type channel.
|Appears in Collections:||生理學科所|
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