Loss of Cavin-2 destabilizes phosphatase and tensin homologue and enhances Akt signalling pathway in cardiomyocytes.

IF 10.2 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Cardiovascular Research Pub Date : 2024-11-05 DOI:10.1093/cvr/cvae130

Naoki Maruyama, Takehiro Ogata, Takeru Kasahara, Tetsuro Hamaoka, Yusuke Higuchi, Yumika Tsuji, Shinya Tomita, Akira Sakamoto, Naohiko Nakanishi, Satoaki Matoba

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Abstract

Aims: Specific cavins and caveolins, known as caveola-related proteins, have been implicated in cardiac hypertrophy and myocardial injury. Cavin-2 forms complexes with other caveola-related proteins, but the role of Cavin-2 in cardiomyocytes (CMs) is poorly understood. Here, we investigated an unknown function of Cavin-2 in CMs.

Methods and results: Under cardiac stress-free conditions, systemic Cavin-2 knockout (KO) induced mild and significant CM hypertrophy. Cavin-2 KO suppressed phosphatase and tensin homologue (PTEN) associated with Akt signalling, whereas there was no difference in Akt activity between the hearts of the wild-type and the Cavin-2 KO mice under cardiac stress-free conditions. However, after swim training, CM hypertrophy was more facilitated with enhanced phosphoinositide 3-kinase (PI3K)-Akt activity in the hearts of Cavin-2 KO mice. Cavin-2 knockdown neonatal rat CMs (NRCMs) using adenovirus expressing Cavin-2 short hairpin RNA were hypertrophied and resistant to hypoxia and H2O2-induced apoptosis. Cavin-2 knockdown increased Akt phosphorylation in NRCMs, and an Akt inhibitor inhibited Cavin-2 knockdown-induced anti-apoptotic responses in a dose-dependent manner. Cavin-2 knockdown increased phosphatidylinositol-3,4,5-triphosphate production and attenuated PTEN at the membrane fraction of NRCMs. Immunostaining and immunoprecipitation showed that Cavin-2 was associated with PTEN at the plasma membrane of NRCMs. A protein stability assay showed that Cavin-2 knockdown promoted PTEN destabilization in NRCMs. In an Angiotensin II (2-week continuous infusion)-induced pathological cardiac hypertrophy model, CM hypertrophy and CM apoptosis were suppressed in CM-specific Cavin-2 conditional KO (Cavin-2 cKO) mice. Because Cavin-2 cKO mouse hearts showed increased Akt activity but not decreased extracellular signal-regulated kinase activity, suppression of pathological hypertrophy by Cavin-2 loss may be due to increased survival of healthy CMs.

Conclusion: Cavin-2 plays a negative regulator in the PI3K-Akt signalling in CMs through interaction with PTEN. Loss of Cavin-2 enhances Akt activity by promoting PTEN destabilization, which promotes physiological CM hypertrophy and may enhance Akt-mediated cardioprotective effects against pathological CM hypertrophy.

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Cavin-2 的缺失会破坏 PTEN 的稳定性，并增强心肌细胞的 Akt 信号通路。

目的：被称为洞穴相关蛋白的特异性腔蛋白和洞穴素与心脏肥大和心肌损伤有关。Cavin-2与其他洞穴内相关蛋白形成复合物，但Cavin-2在心肌细胞（CMs）中的作用却鲜为人知。在此，我们研究了 Cavin-2 在 CMs 中的未知功能：在心脏无应激条件下，全身性 Cavin-2 基因敲除（KO）可诱导轻度和显著的 CM 肥大。Cavin-2 KO抑制了与Akt信号转导相关的磷酸酶和天丝同源物（PTEN），而在无心脏应激条件下，野生型和Cavin-2 KO小鼠心脏的Akt活性没有差异。然而，在游泳训练后，Cavin-2 KO小鼠心脏的PI3K-Akt活性增强，更有利于CM肥大。使用表达 Cavin-2 shRNA 的腺病毒敲除 Cavin-2 的新生大鼠 CMs（NRCMs）肥大，并对缺氧和 H2O2 诱导的细胞凋亡具有抵抗力。Cavin-2 敲除增加了 NRCMs 中 Akt 的磷酸化，Akt 抑制剂以剂量依赖的方式抑制了 Cavin-2 敲除诱导的抗凋亡反应。Cavin-2 敲除增加了 PIP3 的产生，并削弱了 NRCMs 膜部分的 PTEN。免疫染色和免疫沉淀显示，Cavin-2 与 NRCMs 质膜上的 PTEN 相关。蛋白质稳定性测定显示，Cavin-2 的敲除促进了 PTEN 在 NRCMs 中的不稳定性。在血管紧张素 II（连续输注 2 周）诱导的病理性心脏肥大模型中，心肌细胞特异性 Cavin-2 条件性 KO（Cavin-2 cKO）小鼠的 CM 肥大和 CM 凋亡受到抑制。由于Cavin-2 cKO小鼠的心脏显示Akt活性增加，但细胞外信号调节激酶活性并未降低，因此Cavin-2缺失抑制病理性肥大可能是由于健康CM存活率增加所致：结论：Cavin-2通过与PTEN相互作用，在CMs的PI3K-Akt信号转导中发挥负调控作用。结论：Cavin-2通过与PTEN相互作用在CM中的PI3K-Akt信号中起负调控作用，Cavin-2缺失可通过促进PTEN失稳来增强Akt活性，从而促进生理性CM肥大，并可增强Akt介导的对病理性CM肥大的心脏保护作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cardiovascular Research 医学-心血管系统

CiteScore

21.50

自引率

3.70%

发文量

547

审稿时长

1 months

期刊介绍： Cardiovascular Research Journal Overview: International journal of the European Society of Cardiology Focuses on basic and translational research in cardiology and cardiovascular biology Aims to enhance insight into cardiovascular disease mechanisms and innovation prospects Submission Criteria: Welcomes papers covering molecular, sub-cellular, cellular, organ, and organism levels Accepts clinical proof-of-concept and translational studies Manuscripts expected to provide significant contribution to cardiovascular biology and diseases