1. Comprehensive Constitutional Genetic and Epigenetic Characterization of Lynch-Like Individuals.
- Author
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Dámaso, Estela, González-Acosta, Maribel, Vargas-Parra, Gardenia, Navarro, Matilde, Balmaña, Judith, Ramon y Cajal, Teresa, Tuset, Noemí, Thompson, Bryony A., Marín, Fátima, Fernández, Anna, Gómez, Carolina, Velasco, Àngela, Solanes, Ares, Iglesias, Sílvia, Urgel, Gisela, López, Consol, del Valle, Jesús, Campos, Olga, Santacana, Maria, and Matias-Guiu, Xavier
- Subjects
COLON tumors ,METHYLATION ,GENETIC mutation ,ONCOGENES ,RECTUM tumors ,TUMOR markers ,LYNCH syndrome II ,SEQUENCE analysis ,EPIGENOMICS ,DISEASE risk factors - Abstract
The causal mechanism for cancer predisposition in Lynch-like syndrome (LLS) remains unknown. Our aim was to elucidate the constitutional basis of mismatch repair (MMR) deficiency in LLS patients throughout a comprehensive (epi)genetic analysis. One hundred and fifteen LLS patients harboring MMR-deficient tumors and no germline MMR mutations were included. Mutational analysis of 26 colorectal cancer (CRC)-associated genes was performed. Pathogenicity of MMR variants was assessed by splicing and multifactorial likelihood analyses. Genome-wide methylome analysis was performed by the Infinium Human Methylation 450K Bead Chip. The multigene panel analysis revealed the presence of two MMR gene truncating mutations not previously found. Of a total of 15 additional MMR variants identified, five -present in 6 unrelated individuals- were reclassified as pathogenic. In addition, 13 predicted deleterious variants in other CRC-predisposing genes were found in 12 probands. Methylome analysis detected one constitutional MLH1 epimutation, but no additional differentially methylated regions were identified in LLS compared to LS patients or cancer-free individuals. In conclusion, the use of an ad-hoc designed gene panel combined with pathogenicity assessment of variants allowed the identification of deleterious MMR mutations as well as new LLS candidate causal genes. Constitutional epimutations in non-LS-associated genes are not responsible for LLS. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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