Department of Biochemistry and Metabolic Science, Akita University Graduate School of Medicine, 1-1-1 Hondo, Akita 010-8543, Japan.
Department of Cardiovascular and Respiratory Medicine, Akita University Graduate School of Medicine, Akita 010-8543, Japan.
Sci Signal. 2018 Feb 6;11(516):eaan3638. doi: 10.1126/scisignal.aan3638.
Shortening and removal of the polyadenylate [poly(A)] tail of mRNA, a process called deadenylation, is a key step in mRNA decay that is mediated through the CCR4-NOT (carbon catabolite repression 4-negative on TATA-less) complex. In our investigation of the regulation of mRNA deadenylation in the heart, we found that this complex was required to prevent cell death. Conditional deletion of the CCR4-NOT complex components Cnot1 or Cnot3 resulted in the formation of autophagic vacuoles and cardiomyocyte death, leading to lethal heart failure accompanied by long QT intervals. Cnot3 bound to and shortened the poly(A) tail of the mRNA encoding the key autophagy regulator Atg7. In -depleted hearts, expression was posttranscriptionally increased. Genetic ablation of , but not , increased survival and partially restored cardiac function of or knockout mice. We further showed that in -depleted hearts, Atg7 interacted with p53 and modulated p53 activity to induce the expression of genes encoding cell death-promoting factors in cardiomyocytes, indicating that defects in deadenylation in the heart aberrantly activated Atg7 and p53 to promote cell death. Thus, mRNA deadenylation mediated by the CCR4-NOT complex is crucial to prevent Atg7-induced cell death and heart failure, suggesting a role for mRNA deadenylation in targeting autophagy genes to maintain normal cardiac homeostasis.
mRNA 多聚腺苷酸 [poly(A)] 尾的缩短和去除,即脱腺苷酸化过程,是介导 CCR4-NOT(无 TATA 碳分解代谢抑制因子 4 阴性)复合物的 mRNA 衰变的关键步骤。在我们对心脏中 mRNA 脱腺苷酸化调控的研究中,我们发现该复合物是防止细胞死亡所必需的。CCR4-NOT 复合物成分 Cnot1 或 Cnot3 的条件性缺失导致自噬小泡的形成和心肌细胞死亡,导致致命性心力衰竭,伴有长 QT 间期。Cnot3 结合并缩短编码关键自噬调节剂 Atg7 的 mRNA 的 poly(A)尾。在 - 耗尽的心脏中, 的表达被转录后增加。 - 的基因缺失,而不是 ,增加了 或 敲除小鼠的存活率并部分恢复了心脏功能。我们进一步表明,在 - 耗尽的心脏中,Atg7 与 p53 相互作用并调节 p53 活性,以诱导心肌细胞中编码促进细胞死亡的因子的基因表达,表明心脏中脱腺苷酸化的缺陷异常激活了 Atg7 和 p53 以促进细胞死亡。因此,CCR4-NOT 复合物介导的 mRNA 脱腺苷酸化对于防止 Atg7 诱导的细胞死亡和心力衰竭至关重要,这表明 mRNA 脱腺苷酸化在靶向自噬基因以维持正常心脏内稳态方面发挥作用。
