AI Article Synopsis
- Multiple endocrine neoplasia type 1 (MEN1) is a hereditary cancer syndrome caused by variants in the MEN1 gene, identified in two patients via whole exome sequencing.
- Analysis of tumors from these patients showed loss of the normal MEN1 allele, chromosomal changes, and low somatic variants, leading to insights about tumorigenesis.
- The findings suggest that the second hit in the MEN1 tumor suppressor might arise from large genomic rearrangements rather than smaller mutations or epigenetic changes.
Article Abstract
Multiple endocrine neoplasia type 1 (MEN1) is an autosomal dominant tumor syndrome. This hereditary cancer is caused by germline variants in MEN1. Two patients with MEN1 were identified via whole exome sequencing and gene expression profile analysis, conducted for 5,063 patients with various types of cancers. We obtained multiple tumors from each patient; tumors derived from these two MEN1 patients had a loss of the normal MEN1 allele and frequently chromosomal copy number changes. Thus, we investigated whether structural variants were present in the MEN1 patient genomes. Whole-genome sequencing revealed no catastrophic rearrangements, and the tumor samples had very low somatic variants. The two patients had germline variants in MEN1 and some chromosomal copy number changes including on chromosome 11. The only pathogenic variant detected was the MEN1 germline variant, and chromosomal rearrangements led to tumorigenesis in somatic cells. Furthermore, the MEN1 tumor samples displayed a specific signature characterized by T:A>C:G transition. Studies of multiple tumors obtained from single patients are rare in hereditary cancer syndromes, and our results provide insights that the second hit of the tumor suppressor gene MEN1 may be caused by a gross genome rearrangement, not a small insertion and deletion, nor a change in epigenetic regulation.
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| http://dx.doi.org/10.2220/biomedres.42.89 | DOI Listing |
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