par Rojo Pardillo, María 
;Augenlicht, Alice ;Dom, Geneviève ;Kero, Jukka J K;Robaye, Bernard ;Maenhaut, Carine
Référence Cells, 14, page (22), 1465
Publication Publié, 2025-09-19
;Augenlicht, Alice ;Dom, Geneviève ;Kero, Jukka J K;Robaye, Bernard ;Maenhaut, Carine Référence Cells, 14, page (22), 1465
Publication Publié, 2025-09-19
Article révisé par les pairs
| Résumé : | Beyond well-known genetic drivers, microRNA dysregulation has emerged as a key contributor to thyroid tumorigenesis. Central to this process is Dicer1, a ribonuclease essential for microRNA maturation, whose expression is often reduced in papillary thyroid carcinoma (PTC). Evidence from previous studies suggest Dicer1 functions as a context-dependent haplo-insufficient tumor suppressor gene: partial loss may promote tumor development, whereas complete loss may disrupt essential cellular functions, causing cell death and tumor suppression. However, the effects of partial or complete Dicer1 loss in thyroid cancer remain unclear. To explore this, we genetically inactivated one (heterozygous) or both (homozygous) Dicer1 alleles specifically in thyroid follicular cells of a RET/PTC3 transgenic mouse model using an inducible Cre-Lox system. Our findings deepen the current understanding of the RET/PTC3-driven PTC model by revealing an increased number of vimentin-positive cells and disruption in redox homeostasis. Additionally, whereas heterozygous Dicer1 loss did not alter tumor progression in RET/PTC3 mice, total loss reduced tumor growth and led to accumulated DNA damage and cell death. These findings highlight the crucial role of Dicer1 dosage in thyroid cancer progression and underscore its potential as a therapeutic target for aggressive PTC and other malignancies characterized by aberrant Dicer1 expression. |
