Han family with essential tremor caused by the P421L variant of the TENM4 gene in China.
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| Title: | Han family with essential tremor caused by the P421L variant of the TENM4 gene in China. |
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| Authors: | Chi, Wu (AUTHOR), Wu, Min (AUTHOR), Wang, Han-lu (AUTHOR), Wu, Qiu-yan (AUTHOR), Zhang, Yan-ping (AUTHOR), Hu, Ya-nan (AUTHOR), Zhu, Yao-bin (AUTHOR), Lin, Xin-fu (AUTHOR), Chen, Ting (AUTHOR), Luo, Jie-wei (AUTHOR), Ruan, Xing-lin (AUTHOR), Li, Yun-fei (AUTHOR) |
| Source: | Neurological Sciences. Jun2023, Vol. 44 Issue 6, p2003-2015. 13p. 1 Black and White Photograph, 1 Diagram, 2 Charts, 1 Graph. |
| Subjects: | Essential tremor, Genetic variation, Gene expression, Recessive genes, Membrane proteins, Polymerase chain reaction |
| Geographic Terms: | China |
| Abstract: | Background: Essential tremor (ET) is an autosomal dominant inheritance disorder. Mutations in fusion sarcoma (FUS), mitochondrial serine peptidase 2 (HTRA2), teneurin transmembrane protein 4 (TENM4), sortilin1 (SORT1), SCN11A, and notch2N-terminal-like (NOTCH2NLC) genes are associated with familial ET. Methods: A proband with ET was tested using whole-exome sequencing and repeat-primed polymerase chain reaction. Subsequently, the family members were screened for the suspected mutation, and the results were verified using Sanger sequencing. The relationship between pedigree and phenotype was also analyzed, and structural and functional changes in the variants were predicted using bioinformatics analysis. Results: In a family with ET, the proband (III4) and the proband's father (II1), grandfather (I1), uncle (II2), and cousin (III5) all presented with involuntary tremors of both upper limbs. The responsible mutation was identified as TENM4 c.1262C > T (p.P421L), which showed genetic co-segregation in the family survey. AlphaFold predicted a change in the spatial position of TENM4 after the P421L mutation, which may have affected its stability. AlphaFold also predicted P421L to be a deleterious variation, which would lead to lower degrees of freedom of the TENM4 protein, thereby affecting the protein's structure and stability. According to the bioinformatics analysis, TENM4 (p.P421L) may reduce the signal reaching the nucleus by affecting the expression of TENM4 messenger RNA (mRNA), thereby impairing the normal oligodendrocyte differentiation process and leading to impaired myelination. Conclusion: This study revealed that the TENM4 (p.P421L) pathogenic missense variation was responsible for ET in the proband. [ABSTRACT FROM AUTHOR] |
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| Database: | Psychology and Behavioral Sciences Collection |
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| Abstract: | Background: Essential tremor (ET) is an autosomal dominant inheritance disorder. Mutations in fusion sarcoma (FUS), mitochondrial serine peptidase 2 (HTRA2), teneurin transmembrane protein 4 (TENM4), sortilin1 (SORT1), SCN11A, and notch2N-terminal-like (NOTCH2NLC) genes are associated with familial ET. Methods: A proband with ET was tested using whole-exome sequencing and repeat-primed polymerase chain reaction. Subsequently, the family members were screened for the suspected mutation, and the results were verified using Sanger sequencing. The relationship between pedigree and phenotype was also analyzed, and structural and functional changes in the variants were predicted using bioinformatics analysis. Results: In a family with ET, the proband (III4) and the proband's father (II1), grandfather (I1), uncle (II2), and cousin (III5) all presented with involuntary tremors of both upper limbs. The responsible mutation was identified as TENM4 c.1262C > T (p.P421L), which showed genetic co-segregation in the family survey. AlphaFold predicted a change in the spatial position of TENM4 after the P421L mutation, which may have affected its stability. AlphaFold also predicted P421L to be a deleterious variation, which would lead to lower degrees of freedom of the TENM4 protein, thereby affecting the protein's structure and stability. According to the bioinformatics analysis, TENM4 (p.P421L) may reduce the signal reaching the nucleus by affecting the expression of TENM4 messenger RNA (mRNA), thereby impairing the normal oligodendrocyte differentiation process and leading to impaired myelination. Conclusion: This study revealed that the TENM4 (p.P421L) pathogenic missense variation was responsible for ET in the proband. [ABSTRACT FROM AUTHOR] |
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| ISSN: | 15901874 |
| DOI: | 10.1007/s10072-023-06603-4 |
