Piezo1 介导的神经原性炎症级联反应加重心肌梗死后的心室重构。
Piezo1-Mediated Neurogenic Inflammatory Cascade Exacerbates Ventricular Remodeling After Myocardial Infarction.
机构信息
Department of Anesthesiology and Perioperative Medicine, The Second Affiliated Hospital of Anhui Medical University, Hefei, China (M.S., S.M., C.W., C.G., J.H., S.X., H.T., S.H., Y.Z.).
Key Laboratory of Anesthesiology and Perioperative Medicine of Anhui Higher Education Institutes, Anhui Medical University, Hefei, China (M.S., S.M., C.W., C.G., J.H., S.X., H.T., S.H., Y.Z.).
出版信息
Circulation. 2024 May 7;149(19):1516-1533. doi: 10.1161/CIRCULATIONAHA.123.065390. Epub 2024 Jan 18.
BACKGROUND
Heart failure is associated with a high rate of mortality and morbidity, and ventricular remodeling invariably precedes heart failure. Ventricular remodeling is fundamentally driven by mechanotransduction that is regulated by both the nervous system and the immune system. However, it remains unknown which key molecular factors govern the neuro/immune/cardio axis that underlies mechanotransduction during ventricular remodeling. Here, we investigated whether the mechanosensitive Piezo cation channel-mediated neurogenic inflammatory cascade underlies ventricular remodeling-related mechanotransduction.
METHODS
By ligating the left coronary artery of rats to establish an in vivo model of chronic myocardial infarction (MI), lentivirus-mediated thoracic dorsal root ganglion (TDRG)-specific Piezo1 knockdown rats and adeno-associated virus-PHP.S-mediated TDRG neuron-specific Piezo1 knockout mice were used to investigate whether Piezo1 in the TDRG plays a functional role during ventricular remodeling. Subsequently, neutralizing antibody-mediated TDRG IL-6 (interleukin-6) inhibition rats and adeno-associated virus-PHP.S-mediated TDRG neuron-specific IL-6 knockdown mice were used to determine the mechanism underlying neurogenic inflammation. Primary TDRG neurons were used to evaluate Piezo1 function in vitro.
RESULTS
Expression of Piezo1 and IL-6 was increased, and these factors were functionally activated in TDRG neurons at 4 weeks after MI. Both knockdown of TDRG-specific Piezo1 and deletion of TDRG neuron-specific Piezo1 lessened the severity of ventricular remodeling at 4 weeks after MI and decreased the level of IL-6 in the TDRG or heart. Furthermore, inhibition of TDRG IL-6 or knockdown of TDRG neuron-specific IL-6 also ameliorated ventricular remodeling and suppressed the IL-6 cascade in the heart, whereas the Piezo1 level in the TDRG was not affected. In addition, enhanced Piezo1 function, as reflected by abundant calcium influx induced by Yoda1 (a selective agonist of Piezo1), led to increased release of IL-6 from TDRG neurons in mice 4 weeks after MI.
CONCLUSIONS
Our findings point to a critical role for Piezo1 in ventricular remodeling at 4 weeks after MI and reveal a neurogenic inflammatory cascade as a previously unknown facet of the neuronal immune signaling axis underlying mechanotransduction.
背景
心力衰竭与高死亡率和发病率相关,心室重构总是先于心力衰竭。心室重构的根本驱动力是机械转导,这由神经系统和免疫系统共同调节。然而,目前尚不清楚哪些关键分子因素控制着机械转导过程中的神经/免疫/心脏轴。在这里,我们研究了机械敏感 Piezo 阳离子通道介导的神经原性炎症级联反应是否在心室重构相关的机械转导中起作用。
方法
通过结扎大鼠左冠状动脉建立体内慢性心肌梗死(MI)模型,利用慢病毒介导的胸背根神经节(TDRG)特异性 Piezo1 敲低大鼠和腺相关病毒-PHP.S 介导的 TDRG 神经元特异性 Piezo1 敲除小鼠,研究 TDRG 中的 Piezo1 在心室重构过程中是否发挥功能作用。随后,利用中和抗体介导的 TDRG IL-6(白细胞介素-6)抑制大鼠和腺相关病毒-PHP.S 介导的 TDRG 神经元特异性 IL-6 敲低小鼠,确定神经原性炎症的机制。体外使用原代 TDRG 神经元评估 Piezo1 的功能。
结果
MI 后 4 周,Piezo1 和 IL-6 的表达增加,并且这些因子在 TDRG 神经元中被功能性激活。TDRG 特异性 Piezo1 敲低和 TDRG 神经元特异性 Piezo1 缺失均减轻了 MI 后 4 周的心室重构严重程度,并降低了 TDRG 或心脏中的 IL-6 水平。此外,抑制 TDRG IL-6 或敲低 TDRG 神经元特异性 IL-6 也改善了心室重构,并抑制了心脏中的 IL-6 级联反应,而 TDRG 中的 Piezo1 水平没有受到影响。此外,如 Yoda1(Piezo1 的选择性激动剂)诱导的大量钙内流所反映的,增强 Piezo1 功能导致 MI 后 4 周时 TDRG 神经元中 IL-6 的释放增加。
结论
我们的研究结果表明 Piezo1 在 MI 后 4 周的心室重构中起关键作用,并揭示了神经原性炎症级联反应是机械转导下神经元免疫信号轴的一个未知方面。
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