Your search keyword '"Zoulira Abidi"' showing total 2 results

1. MiRNA genes constitute new targets for microsatellite instability in colorectal cancer.

Author

Nizar El-Murr, Zoulira Abidi, Kristell Wanherdrick, Magali Svrcek, Marie-Pierre Gaub, Jean-François Fléjou, Richard Hamelin, Alex Duval, and Thécla Lesuffleur

Subjects

Medicine, Science

Abstract

Mismatch repair-deficient colorectal cancers (CRC) display widespread instability at DNA microsatellite sequences (MSI). Although MSI has been reported to commonly occur at coding repeats, leading to alterations in the function of a number of genes encoding cancer-related proteins, nothing is known about the putative impact of this process on non-coding microRNAs. In miRbase V15, we identified very few human microRNA genes with mono- or di-nucleotide repeats (n = 27). A mutational analysis of these sequences in a large series of MSI CRC cell lines and primary tumors underscored instability in 15 of the 24 microRNA genes successfully studied at variable frequencies ranging from 2.5% to 100%. Following a maximum likelihood statistical method, microRNA genes were separated into two groups that differed significantly in their mutation frequencies and in their tendency to represent mutations that may or may not be under selective pressures during MSI tumoral progression. The first group included 21 genes that displayed no or few mutations in CRC. The second group contained three genes, i.e., hsa-mir-1273c, hsa-mir-1303 and hsa-mir-567, with frequent (≥ 80%) and sometimes bi-allelic mutations in MSI tumors. For the only one expressed in colonic tissues, hsa-mir-1303, no direct link was found between the presence or not of mono- or bi-allelic alterations and the levels of mature miR expression in MSI cell lines, as determined by sequencing and quantitative PCR respectively. Overall, our results provide evidence that DNA repeats contained in human miRNA genes are relatively rare and preserved from mutations due to MSI in MMR-deficient cancer cells. Functional studies are now required to conclude whether mutated miRNAs, and especially the miR-1303, might have a role in MSI tumorigenesis.

Published

2012

2. MiRNA Genes Constitute New Targets for Microsatellite Instability in Colorectal Cancer

Author

Alex Duval, Richard C. Hamelin, Magali Svrcek, Jean-François Fléjou, Zoulira Abidi, Marie-Pierre Gaub, Nizar El-Murr, Kristell Wanherdrick, and Thécla Lesuffleur

Subjects

Mutation rate, DNA Mutational Analysis, Biophysics, lcsh:Medicine, Gastroenterology and Hepatology, Biology, medicine.disease_cause, MiRBase, Mutation Rate, Nucleic Acids, Molecular Cell Biology, Gastrointestinal Tumors, microRNA, Genetics, medicine, Humans, lcsh:Science, Gene, Likelihood Functions, Mutation, Multidisciplinary, lcsh:R, Cancers and Neoplasms, Microsatellite instability, DNA, medicine.disease, digestive system diseases, MicroRNAs, Cell Transformation, Neoplastic, Oncology, Medicine, Microsatellite, Microsatellite Instability, lcsh:Q, Colorectal Neoplasms, Carcinogenesis, Research Article

Abstract

Mismatch repair-deficient colorectal cancers (CRC) display widespread instability at DNA microsatellite sequences (MSI). Although MSI has been reported to commonly occur at coding repeats, leading to alterations in the function of a number of genes encoding cancer-related proteins, nothing is known about the putative impact of this process on non-coding microRNAs. In miRbase V15, we identified very few human microRNA genes with mono- or di-nucleotide repeats (n = 27). A mutational analysis of these sequences in a large series of MSI CRC cell lines and primary tumors underscored instability in 15 of the 24 microRNA genes successfully studied at variable frequencies ranging from 2.5% to 100%. Following a maximum likelihood statistical method, microRNA genes were separated into two groups that differed significantly in their mutation frequencies and in their tendency to represent mutations that may or may not be under selective pressures during MSI tumoral progression. The first group included 21 genes that displayed no or few mutations in CRC. The second group contained three genes, i.e., hsa-mir-1273c, hsa-mir-1303 and hsa-mir-567, with frequent (≥ 80%) and sometimes bi-allelic mutations in MSI tumors. For the only one expressed in colonic tissues, hsa-mir-1303, no direct link was found between the presence or not of mono- or bi-allelic alterations and the levels of mature miR expression in MSI cell lines, as determined by sequencing and quantitative PCR respectively. Overall, our results provide evidence that DNA repeats contained in human miRNA genes are relatively rare and preserved from mutations due to MSI in MMR-deficient cancer cells. Functional studies are now required to conclude whether mutated miRNAs, and especially the miR-1303, might have a role in MSI tumorigenesis.

Published

2012