Journal Article

Bladder tumour-derived somatic <i>TSC1</i> missense mutations cause loss of function via distinct mechanisms

Louis S. Pymar, Fiona M. Platt, Jon M. Askham, Ewan E. Morrison and Margaret A. Knowles

in Human Molecular Genetics

Volume 17, issue 13, pages 2006-2017
Published in print July 2008 | ISSN: 0964-6906
Published online April 2008 | e-ISSN: 1460-2083 | DOI: http://dx.doi.org/10.1093/hmg/ddn098
Bladder tumour-derived somatic TSC1 missense mutations cause loss of function via distinct mechanisms

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More than 50% of transitional cell carcinomas of the bladder show loss of heterozygosity of a region spanning the TSC1 locus at 9q34 and mutations of TSC1 have been identified in 14.5% of tumours. These comprise nonsense mutations, splicing mutations, small deletions and missense mutations. Missense mutations are only rarely found in the germline in TSC disease. Therefore, we have examined six somatic missense mutations found in bladder cancer to determine whether these result in loss of function. We describe loss of function via distinct mechanisms. Five mutations caused mutually exclusive defects at mRNA and protein levels. Of these, two mutations caused pre-mRNA splicing errors that were predicted to result in premature protein truncation and three resulted in markedly reduced stability of exogenous TSC1 protein. Primary tumours with aberrant TSC1 pre-mRNA splicing were confirmed as negative for TSC1 expression by immunohistochemistry. Expression was also significantly reduced in a tumour with a TSC1 missense mutation resulting in diminished protein half-life. A single TSC1 missense mutation identified in a tumour with retained heterozygosity of the TSC1 region on chromosome 9 caused an apparently TSC2- and mTOR-independent localization defect of the mutant protein. We conclude that although TSC1 missense mutations do not play a major role in causation of TSC disease, they represent a significant proportion of somatic loss of function mutations in bladder cancer.

Journal Article.  7303 words.  Illustrated.

Subjects: Genetics and Genomics

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