Genetic analysis of a novel TSC1 splice mutation causing tuberous sclerosis without neurological phenotypes

Genetic analysis of a novel TSC1 splice mutation causing tuberous sclerosis without neurological phenotypes

Abstract Tuberous sclerosis complex (TSC) is an autosomal dominant genetic disorder characterized by the development of benign tumors and lesions in multiple organ systems. The syndrome arises from heterozygous mutations in either TSC1 or TSC2. In this study, we identified a family with a TSC1 c.363...

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Main Authors: Xiu-juan Yao, Ying Lin, Jing Zou, Zun-lin Cai, Zi-Yan Xu, Xiao-qin Li, Qian Chen, Hong-ping Yu, Jian-hui Zhang, Dan-dan Ruan, Mei-zhu Gao, Li Zhang, Jie-wei Luo, Bao-song Xie
Format: Article
Language:English
Published: Nature Portfolio 2025-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-025-07906-6
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Summary:Abstract Tuberous sclerosis complex (TSC) is an autosomal dominant genetic disorder characterized by the development of benign tumors and lesions in multiple organ systems. The syndrome arises from heterozygous mutations in either TSC1 or TSC2. In this study, we identified a family with a TSC1 c.363 + 668G > C mutation exhibiting diverse clinical phenotypes. The proband and affected family members exhibited multifocal nodular pneumocyte hyperplasia (MMPH), renal hamartomas, bone marrow hyperplasia, and pulmonary lymphangioleiomyomatosis (LAM), with genetic co-segregation analysis confirming the association between the mutation and the clinical phenotype. Genetic co-segregation analysis demonstrated that the TSC1 c.363 + 668G > C mutation was consistently associated with the observed clinical features in this family. Using first-generation Sanger sequencing, we identified a heterozygous splicing variation located in intron 5 of TSC1 (NM_000368.5). In vitro cell and family Minigene results show that TSC1 c.363 + 668G > C mutation can lead to abnormal retention of 92 bp intron sequence in different positions, which may be related to the alternative splicing phenomenon that the same gene produces different splicing variants in different tissues or development stages. The 3D protein structure analysis using Chimera revealed that the mutation site was located at the 363rd base, within the intron between the 121st and 122nd amino acids. This mutation resulted in the insertion of a 92-base sequence, causing a frameshift that led to premature termination of the TSC1 protein after the translation of 26 amino acids. Additionally, the 121st amino acid was altered from lysine to asparagine, significantly shortening the mutated TSC1 protein. These findings provide critical experimental evidence supporting the potential pathogenic mechanism of the TSC1 c.363 + 668G > C mutation. Future research should focus on validating this splicing abnormality in patient-derived cells or tissues and investigating its impact on protein expression and functional activity to better understand its role in disease progression. Clinical trial number: K2024-09-144.
ISSN:2045-2322

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