聚腺苷酸
基因亚型
MCL1
非翻译区
三素数非翻译区
信使核糖核酸
细胞生物学
翻译(生物学)
生物
基因敲除
分子生物学
细胞凋亡
下调和上调
基因
遗传学
作者
Isabel Pereira‐Castro,Beatriz García,Ana Curinha,Ana Neves‐Costa,Eduardo Conde-Sousa,Luís F. Moita,Alexandra Moreira
标识
DOI:10.1007/s00018-022-04172-x
摘要
Alternative polyadenylation in the 3′ UTR (3′ UTR-APA) is a mode of gene expression regulation, fundamental for mRNA stability, translation and localization. In the immune system, it was shown that upon T cell activation, there is an increase in the relative expression of mRNA isoforms with short 3′ UTRs resulting from 3′ UTR-APA. However, the functional significance of 3′ UTR-APA remains largely unknown. Here, we studied the physiological function of 3′ UTR-APA in the regulation of Myeloid Cell Leukemia 1 (MCL1), an anti-apoptotic member of the Bcl-2 family essential for T cell survival. We found that T cells produce two MCL1 mRNA isoforms (pA1 and pA2) by 3′ UTR-APA. We show that upon T cell activation, there is an increase in both the shorter pA1 mRNA isoform and MCL1 protein levels. Moreover, the less efficiently translated pA2 isoform is downregulated by miR-17, which is also more expressed upon T cell activation. Therefore, by increasing the expression of the more efficiently translated pA1 mRNA isoform, which escapes regulation by miR-17, 3′ UTR-APA fine tunes MCL1 protein levels, critical for activated T cells’ survival. Furthermore, using CRISPR/Cas9-edited cells, we show that depletion of either pA1 or pA2 mRNA isoforms causes severe defects in mitochondria morphology, increases apoptosis and impacts cell proliferation. Collectively, our results show that MCL1 alternative polyadenylation has a key role in the regulation of MCL1 protein levels upon T cell activation and reveal an essential function for MCL1 3′ UTR-APA in cell viability and mitochondria dynamics.
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