Last Nucleotide Substitutions of COL4A5 Exons Cause Aberrant Splicing

COL4A5 is a causative gene of X-linked Alport syndrome (XLAS). Male patients with XLAS with nonsense variants have the most severe phenotypes of early onset end-stage kidney disease (ESKD); those with splicing variants have middle phenotypes and those with missense variants have the mildest phenotyp...

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Veröffentlicht in:	Kidney international reports 2022-01, Vol.7 (1), p.108-116
Hauptverfasser:	Aoto, Yuya, Horinouchi, Tomoko, Yamamura, Tomohiko, Kondo, Atsushi, Nagai, Sadayuki, Ishiko, Shinya, Okada, Eri, Rossanti, Rini, Sakakibara, Nana, Nagano, China, Awano, Hiroyuki, Nagase, Hiroaki, Shima, Yuko, Nakanishi, Koichi, Matsuo, Masafumi, Iijima, Kazumoto, Nozu, Kandai
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Sprache:	eng
Schlagworte:	Clinical Research COL4A5 genotype–phenotype correlation last nucleotide position missense variants single-base substitutions splicing
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creator	Aoto, Yuya Horinouchi, Tomoko Yamamura, Tomohiko Kondo, Atsushi Nagai, Sadayuki Ishiko, Shinya Okada, Eri Rossanti, Rini Sakakibara, Nana Nagano, China Awano, Hiroyuki Nagase, Hiroaki Shima, Yuko Nakanishi, Koichi Matsuo, Masafumi Iijima, Kazumoto Nozu, Kandai
description	COL4A5 is a causative gene of X-linked Alport syndrome (XLAS). Male patients with XLAS with nonsense variants have the most severe phenotypes of early onset end-stage kidney disease (ESKD); those with splicing variants have middle phenotypes and those with missense variants have the mildest phenotypes. Therefore, genotyping for male patients with XLAS can be used to predict kidney prognosis. Single-base substitutions at the last nucleotide position in each exon are known to affect splicing patterns and could be splicing variants. Nevertheless, in XLAS, these variants are generally considered to be missense variants, without conducting a transcript analysis, which underestimates some patients as having mild phenotypes. This study aimed to investigate whether single-base substitutions at the last nucleotide position of COL4A5 exons cause aberrant splicing. In total, 20 variants were found in the Human Gene Mutation Database (n = 14) and our cohort (n = 6). We performed functional splicing assays using a hybrid minigene analysis and in vivo transcript analyses of patients’ samples when available. Then, we investigated genotype–phenotype correlations for patients with splicing variants detected in this study by comparing data from our previous studies. Among the 20 variants, 17 (85%) caused aberrant splicing. Male patients with splicing variants had more severe phenotypes when compared with those with missense variants. Findings from the in vivo analyses for 3 variants were identical to those from the minigene assay. Our study revealed that most single-base substitutions at the last nucleotide position of COL4A5 exons result in splicing variants, rather than missense variants, thereby leading to more severe phenotypes. [Display omitted]
doi_str_mv	10.1016/j.ekir.2021.10.012
format	Article
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Male patients with XLAS with nonsense variants have the most severe phenotypes of early onset end-stage kidney disease (ESKD); those with splicing variants have middle phenotypes and those with missense variants have the mildest phenotypes. Therefore, genotyping for male patients with XLAS can be used to predict kidney prognosis. Single-base substitutions at the last nucleotide position in each exon are known to affect splicing patterns and could be splicing variants. Nevertheless, in XLAS, these variants are generally considered to be missense variants, without conducting a transcript analysis, which underestimates some patients as having mild phenotypes. This study aimed to investigate whether single-base substitutions at the last nucleotide position of COL4A5 exons cause aberrant splicing. In total, 20 variants were found in the Human Gene Mutation Database (n = 14) and our cohort (n = 6). We performed functional splicing assays using a hybrid minigene analysis and in vivo transcript analyses of patients’ samples when available. Then, we investigated genotype–phenotype correlations for patients with splicing variants detected in this study by comparing data from our previous studies. Among the 20 variants, 17 (85%) caused aberrant splicing. Male patients with splicing variants had more severe phenotypes when compared with those with missense variants. Findings from the in vivo analyses for 3 variants were identical to those from the minigene assay. Our study revealed that most single-base substitutions at the last nucleotide position of COL4A5 exons result in splicing variants, rather than missense variants, thereby leading to more severe phenotypes. 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We performed functional splicing assays using a hybrid minigene analysis and in vivo transcript analyses of patients’ samples when available. Then, we investigated genotype–phenotype correlations for patients with splicing variants detected in this study by comparing data from our previous studies. Among the 20 variants, 17 (85%) caused aberrant splicing. Male patients with splicing variants had more severe phenotypes when compared with those with missense variants. Findings from the in vivo analyses for 3 variants were identical to those from the minigene assay. Our study revealed that most single-base substitutions at the last nucleotide position of COL4A5 exons result in splicing variants, rather than missense variants, thereby leading to more severe phenotypes. 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subjects	Clinical Research COL4A5 genotype–phenotype correlation last nucleotide position missense variants single-base substitutions splicing
title	Last Nucleotide Substitutions of COL4A5 Exons Cause Aberrant Splicing
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