Mechanistic basis for rescuing hypertrophic cardiomyopathy with myosin regulatory light chain phosphorylation.

Jingsheng Liang, Katarzyna Kazmierczak, Melanie Veerasammy, Sunil Yadav, Lauro Takeuchi, Rosemeire Kanashiro-Takeuchi, Danuta Szczesna-Cordary
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Abstract

We investigated the impact of the phosphomimetic (Ser15 → Asp15) myosin regulatory light chain (S15D-RLC) on the Super-Relaxed (SRX) state of myosin using previously characterized transgenic (Tg) S15D-D166V rescue mice, comparing them to the Hypertrophic Cardiomyopathy (HCM) Tg-D166V model and wild-type (WT) RLC mice. In the Tg-D166V model, we observed a disruption of the SRX state, resulting in a transition from SRX to DRX (Disordered Relaxed) state, which explains the hypercontractility of D166V-mutated myosin motors. The presence of the S15D moiety in Tg-S15D-D166V mice restored the SRX/DRX balance to levels comparable to Tg-WT, thus mitigating the hypercontractile behavior associated with the HCM-D166V mutation. Additionally, we investigated the impact of delivering the S15D-RLC molecule to the hearts of Tg-D166V mice via adeno-associated virus (AAV9) and compared their condition to AAV9-empty vector-injected or non-injected Tg-D166V animals. Tg-D166V mice injected with AAV9 S15D-RLC exhibited a significantly higher proportion of myosin heads in the SRX state compared to those injected with AAV9 empty vector or left non-injected. No significant effect was observed in Tg-WT hearts treated similarly. These findings suggest that AAV9-delivered phosphomimetic S15D-RLC modality mitigates the abnormal Tg-D166V phenotype without impacting the normal function of Tg-WT hearts. Global longitudinal strain analysis supported these observations, indicating that the S15D moiety can alleviate the HCM-D166V phenotype by restoring SRX stability and the SRX ↔ DRX equilibrium.

肌球蛋白调节轻链磷酸化拯救肥厚型心肌病的机制基础
我们利用先前表征的转基因(Tg)S15D-D166V拯救小鼠研究了磷酸拟态(Ser15 → Asp15)肌球蛋白调节轻链(S15D-RLC)对肌球蛋白超松弛(SRX)状态的影响,并将它们与肥厚性心肌病(HCM)Tg-D166V模型和野生型(WT)RLC小鼠进行了比较。在 Tg-D166V 模型中,我们观察到 SRX 状态被破坏,导致从 SRX 过渡到 DRX(无序松弛)状态,这解释了 D166V 突变肌球蛋白马达的过度收缩性。Tg-S15D-D166V 小鼠中 S15D 分子的存在使 SRX/DRX 平衡恢复到与 Tg-WT 相当的水平,从而减轻了与 HCM-D166V 突变相关的过度收缩行为。此外,我们还研究了通过腺相关病毒(AAV9)向 Tg-D166V 小鼠心脏输送 S15D-RLC 分子的影响,并将它们的状况与注射 AAV9 空载体或未注射 Tg-D166V 的动物进行了比较。与注射 AAV9 空载体或未注射 AAV9 空载体的 Tg-D166V 小鼠相比,注射 AAV9 S15D-RLC 的 Tg-D166V 小鼠表现出更高比例的肌球蛋白头处于 SRX 状态。同样处理的 Tg-WT 心脏未观察到明显影响。这些发现表明,AAV9递送的磷酸拟态S15D-RLC模式减轻了Tg-D166V的异常表型,而不会影响Tg-WT心脏的正常功能。全球纵向应变分析支持这些观察结果,表明S15D分子可通过恢复SRX稳定性和SRX ↔ DRX平衡来缓解HCM-D166V表型。
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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