MSI tumor progression (Microsatellite Instability) is depicted as a multistage process that results from mutations generated by a process of genetic instability affecting mostly DNA tandem repeats (known as microsatellites). These mutations contribute to tumorigenesis when they disrupt the function of oncogenes or tumor suppressor genes. As a phenotypic trait, MSI is the consequence of DNA mismatch repair inactivation (MMR). This work focused on the role microRNAs might play in MSI tumorigenesis. MicroRNAs regulate the expression of numerous genes and are deregulated in cancer. I have hypothesized a role of theses microRNAs during the various stages of the MSI tumorigenic process, choosing colorectal cancers (CRC) as a working model. First we demonstrated that overexpression of miR-155 (targeting core MMR proteins) in the non-transformed colonic mucosa of patients with Inflammatory Bowel Disease, might constitute a pre-tumoral event promoting the emergence of MMR-deficient clones (a concept known as ?field effect?). In a second part, we were able to identify the first somatic mutation affecting a mature microRNA sequence. A DNA microsatellite repeat is indeed fully embedded within the mature sequence of miR-3613. Instability at this DNA repeat leads to sequence modifications at the 3?end of miR-3613-5p (IsomiRs). IsomiRs display a signature among which some mRNA targets are common to the wild form, while others are specific to each variant.