Litcius/Paper detail

CNOT6/6L-mediated mRNA degradation in ovarian granulosa cells is a key mechanism of gonadotropin-triggered follicle development

Xing‐Xing Dai, Zhi-Yan Jiang, Yun‐Wen Wu, Qian‐Qian Sha, Yang Liu, Jiayi Ding, Wen-Dong Xi, Jing Li, Heng‐Yu Fan

2021Cell Reports26 citationsDOIOpen Access PDF

Abstract

female mice are infertile, with poor ovarian responses to gonadotropins. Follicle-stimulating hormone (FSH) stimulates the transcription and translation of Cnot6 and Cnot6l in ovarian granulosa cells. CNOT6/6L function as key effectors of FSH in granulosa cells and trigger the clearance of specific transcripts in granulosa cells during preantral to antral follicle transition. These results demonstrate that FSH modulates granulosa cell function by stimulating selective translational activation and degradation of existing mRNAs, in addition to inducing de novo gene transcription. Meanwhile, this study provides in vivo evidence that CNOT6/6L-mediated mRNA deadenylation is dispensable in most somatic cell types, but is essential for female reproductive endocrine regulation.

Topics & Concepts

Cell biologyBiologyAntral follicleGranulosa cellOvarian follicleSomatic cellOocyteMessenger RNAFollicle-stimulating hormoneInternal medicineEndocrinologyRegulatorRegulation of gene expressionGene expressionGonadotropinHormoneGeneEmbryoLuteinizing hormoneGeneticsMedicineRNA Research and SplicingReproductive Biology and FertilityAdipose Tissue and Metabolism
CNOT6/6L-mediated mRNA degradation in ovarian granulosa cells is a key mechanism of gonadotropin-triggered follicle development | Litcius