Department of Molecular Cell Biology, Weizmann Institute of Science, Rehovot, Israel.
The De Botton Protein Profiling Institute of the Nancy and Stephen Grand Israel National Center for Personalized Medicine, Weizmann Institute of Science, Rehovot, Israel.
Nat Cell Biol. 2020 Nov;22(11):1346-1356. doi: 10.1038/s41556-020-00588-4. Epub 2020 Oct 12.
Cardiomyocyte loss after injury results in adverse remodelling and fibrosis, inevitably leading to heart failure. The ERBB2-Neuregulin and Hippo-YAP signalling pathways are key mediators of heart regeneration, yet the crosstalk between them is unclear. We demonstrate that transient overexpression of activated ERBB2 in cardiomyocytes (OE CMs) promotes cardiac regeneration in a heart failure model. OE CMs present an epithelial-mesenchymal transition (EMT)-like regenerative response manifested by cytoskeletal remodelling, junction dissolution, migration and extracellular matrix turnover. We identified YAP as a critical mediator of ERBB2 signalling. In OE CMs, YAP interacts with nuclear-envelope and cytoskeletal components, reflecting an altered mechanical state elicited by ERBB2. We identified two YAP-activating phosphorylations on S352 and S274 in OE CMs, which peak during metaphase, that are ERK dependent and Hippo independent. Viral overexpression of YAP phospho-mutants dampened the proliferative competence of OE CMs. Together, we reveal a potent ERBB2-mediated YAP mechanotransduction signalling, involving EMT-like characteristics, resulting in robust heart regeneration.
心肌细胞损伤后会导致不良重构和纤维化,不可避免地导致心力衰竭。ERBB2-神经调节素和 Hippo-YAP 信号通路是心脏再生的关键介质,但它们之间的串扰尚不清楚。我们证明,心肌细胞中瞬时过表达激活的 ERBB2(OE CMs)可促进心力衰竭模型中的心脏再生。OE CMs 呈现出上皮-间充质转化(EMT)样再生反应,表现为细胞骨架重塑、连接溶解、迁移和细胞外基质周转。我们确定 YAP 是 ERBB2 信号的关键介质。在 OE CMs 中,YAP 与核膜和细胞骨架成分相互作用,反映了 ERBB2 引发的机械状态改变。我们在 OE CMs 中鉴定了 S352 和 S274 上的两个 YAP 激活磷酸化位点,它们在中期达到峰值,ERK 依赖性和 Hippo 独立性。OE CMs 中 YAP 磷酸化突变体的病毒过表达抑制了 OE CMs 的增殖能力。总之,我们揭示了一种强大的 ERBB2 介导的 YAP 力学转导信号,涉及 EMT 样特征,从而实现强大的心脏再生。
