Your search keyword '"Dupuy, Corinne"' showing total 2 results

1. Investigation du rôle fonctionnel des miR-204-3p et miR-204-5p dans la progression tumorale des cancers thyroïdiens papillaires

Author

Maenhaut, Carine, Dewachter, Laurence, Robaye, Bernard, Chamekh, Mostafa, Van Keymeulen, Alexandra, Burniat, Agnès, Journe, Fabrice, Dupuy, Corinne, Van Branteghem, Cindy, Maenhaut, Carine, Dewachter, Laurence, Robaye, Bernard, Chamekh, Mostafa, Van Keymeulen, Alexandra, Burniat, Agnès, Journe, Fabrice, Dupuy, Corinne, and Van Branteghem, Cindy

Abstract

Au cours de cette étude, le rôle des miR-204-5p et miR-204-3p dans la tumorigenèse thyroïdienne, en particulier dans les carcinomes papillaires de la thyroïde (PTC), a été exploré. Bien que les PTC soient généralement associés à un pronostic favorable, certains évoluent vers des formes plus agressives. La transformation maligne de la thyroïde en PTC, induite par des mutations oncogéniques dans la voie des MAPK, s'accompagne de changements significatifs dans l'expression des miARNs parmi lesquels les miR-204-5p et miR-204-3p ont été précédemment identifiés dans les PTC comme étant sous régulés et associés à l’agressivité. Afin d’évaluer leur rôle précis dans la progression tumorale des PTC, trois lignées thyroïdiennes humaines, qui ont perdu l’expression de ces deux miARNs, ont été transfectées de manière transitoire à l’aide d’un mimique spécifique du miR-204-5p et du miR-204-3p et des tests fonctionnels de migration/d’invasion, de prolifération, de croissance et d’apoptose ont été réalisés 72h après transfection. La caractérisation fonctionnelle de ces deux miARNs a révélé que ceux-ci agissaient en tant que suppresseur de tumeurs en inhibant l'invasion cellulaire. De nouvelles cibles du miR-204-5p ont alors pu être identifiées dont HMGA2, SNAI2, SOX4, TGFBR2, MMP14, ADAMTS9, et sont toutes étroitement associées à la transition épithélio-mésenchymateuse (TEM). La caractérisation approfondie de la fonction de ce miARN a révélé que celui-ci pourrait être inversement corrélé à l’agressivité tumorale en contrôlant le processus de différenciation cellulaire. Nous avons montré que l’inhibition de l’invasion et le maintien de la différenciation cellulaire par le miR-204-5p impliquait la liaison directe et la répression de HMGA2, régulé par la voie des MAPK. Nos résultats ont également mis en évidence que des modifications épigénétiques, en particulier la méthylation de l'ADN, étaient responsables de la sous expression du miR-204-5p dans les PTC. Ensuite, la pertinence clin, During this study, the role of miR-204-5p and miR-204-3p in thyroid tumorigenesis, particularly in papillary thyroid carcinomas (PTC), was investigated. While PTCs are generally associated with a favorable prognosis, some progress to more aggressive forms. The malignant transformation of the thyroid into PTC, induced by oncogenic mutations in the MAPK pathway, is accompanied by significant changes in the expression of miRNAs, among which miR-204-5p and miR-204-3p have been previously identified in PTCs as downregulated and associated with aggressiveness. To assess their precise role in the tumor progression of PTCs, three human thyroid cell lines, which had lost the expression of these two miRNAs, were transiently transfected with specific mimics of miR-204-5p and miR-204-3p. Functional tests for migration/invasion, proliferation, growth, and apoptosis were performed 72 hours after transfection. The functional characterization of these two miRNAs revealed that they acted as tumor suppressors by inhibiting cell invasion.Novel targets of miR-204-5p were identified, including HMGA2, SNAI2, SOX4, TGFBR2, MMP14, ADAMTS9, all closely associated with the epithelial-mesenchymal transition (EMT). In-depth characterization of miR-204-5p's function revealed its potential inverse correlation with tumor aggressiveness by controlling the process of cellular differentiation. We demonstrated that the inhibition of invasion and maintenance of cellular differentiation by miR-204-5p involved direct binding and repression of HMGA2, regulated by the MAPK pathway.Our results also highlighted that epigenetic modifications, particularly DNA methylation, were responsible for the underexpression of miR-204-5p in PTCs. Subsequently, the clinical relevance of our findings was evaluated in vivo. Correlation analyses in a murine PTC model and in human PTCs revealed a negative correlation between the expression of miR-204-5p and HMGA2, as well as between the expression of HMGA2 and various genes, Doctorat en Sciences biomédicales et pharmaceutiques (Médecine), info:eu-repo/semantics/nonPublished

Published

2024

2. A post-irradiation-induced replication stress promotes RET proto-oncogene breakage.

Author

Hecht F, Valerio L, Gonçalves CFL, Harinquet M, Ameziane El Hassani R, Carvalho DP, Koundrioukoff S, Cadoret JC, and Dupuy C

Subjects

Humans, Genomic Instability radiation effects, DNA Breaks, Double-Stranded radiation effects, Cell Line, Thyroid Neoplasms genetics, Thyroid Neoplasms pathology, Thyroid Neoplasms radiotherapy, Epithelial Cells radiation effects, Epithelial Cells metabolism, Cytoskeletal Proteins, DNA Replication radiation effects, Proto-Oncogene Proteins c-ret genetics, Proto-Oncogene Proteins c-ret metabolism, Proto-Oncogene Mas, Thyroid Gland radiation effects

Abstract

Objective: Ionizing radiation generates genomic instability by promoting the accumulation of chromosomal rearrangements. The oncogenic translocation RET/PTC1 is present in more than 70% of radiation-induced thyroid cancers. Both RET and CCDC6, the genes implicated in RET/PTC1, are found within common fragile sites - chromosomal regions prone to DNA breakage during slight replication stress. Given that irradiated cells become more susceptible to genomic destabilization due to the accumulation of replication-stress-related double-strand breaks (DSBs), we explored whether RET and CCDC6 exhibit DNA breakage under replicative stress several days post-irradiation of thyroid cells., Methods: We analyzed the dynamic of DNA replication in human thyroid epithelial cells (HThy-ori-3.1) 4 days post a 5-Gy exposure using molecular DNA combing. The DNA replication schedule was evaluated through replication-timing experiments. We implemented a ChIP-qPCR assay to determine whether the RET and CCDC6 genes break following irradiation., Results: Our study indicates that replicative stress, occurring several days post-irradiation in thyroid cells, primarily causes DSBs in the RET gene. We discovered that both the RET and CCDC6 genes undergo late replication in thyroid cells. However, only RET's replication rate is notably delayed after irradiation., Conclusion: The findings suggest that post-irradiation in the RET gene causes a breakage in the replication fork, which could potentially invade another genomic area, including CCDC6. As a result, this could greatly contribute to the high prevalence of chromosomal RET/PTC rearrangements seen in patients exposed to external radiation.

Published

2024