偏向性M3 mAChR配体PD 102807介导性质上不同的信号传导以调节气道平滑肌表型。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-01 DOI:10.1016/j.jbc.2023.105209
Eric Tompkins, Bogdana Mimic, Raymond B Penn, Tonio Pera
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引用次数: 0

摘要

气道平滑肌(ASM)细胞在阻塞性气道疾病期间达到高收缩表型。我们最近发现了一种偏向性M3毒蕈碱乙酰胆碱受体(mAChR)配体PD 102807,它诱导GRK-/抑制蛋白依赖性AMP活化蛋白激酶(AMPK)活化,以抑制转化生长因子-β诱导的高收缩性ASM表型。相反,平衡mAChR激动剂甲基胆碱(MCh)激活AMPK,但不调节ASM表型。在目前的研究中,我们证明PD 102807-和MCh诱导的AMPK激活都依赖于Ca2+/钙调蛋白依赖性激酶(CaMKKs)。然而,MCh诱导的AMPK活化是钙依赖性的,并由CaMKK1和CaMKK2亚型介导。相反,PD 102807诱导的信号传导是钙非依赖性的,并由非典型亚型蛋白激酶C-iota和CaMKK1(但不是CaMKK2)亚型介导。MCh-和PD 102807诱导的AMPK激活均涉及AMPKα1亚型。PD 102807诱导的AMPKα1(但不是AMPKα2)亚型激活介导ASM细胞中雷帕霉素复合物1(mTORC1)哺乳动物靶标的抑制,如Raptor(mTOR的调节相关蛋白)磷酸化增加以及磷酸-S6蛋白和血清反应元件萤光素酶活性的抑制所证明的。mTORC1抑制剂雷帕霉素和AMPK激活剂二甲双胍均模拟PD 102807减弱转化生长因子-β诱导的α-平滑肌肌动蛋白表达(高收缩性ASM的标志物)的能力。这些数据表明,PD 102807转导一种与经典M3 mAChR信号传导在性质上不同的信号传导途径(AMPK介导的mTORC1抑制),以防止ASM的致病性重塑,从而证明PD 102 807是一种偏向性M3 mAChR配体,具有治疗阻塞性气道疾病的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The biased M3 mAChR ligand PD 102807 mediates qualitatively distinct signaling to regulate airway smooth muscle phenotype.

The biased M3 mAChR ligand PD 102807 mediates qualitatively distinct signaling to regulate airway smooth muscle phenotype.

The biased M3 mAChR ligand PD 102807 mediates qualitatively distinct signaling to regulate airway smooth muscle phenotype.

The biased M3 mAChR ligand PD 102807 mediates qualitatively distinct signaling to regulate airway smooth muscle phenotype.

Airway smooth muscle (ASM) cells attain a hypercontractile phenotype during obstructive airway diseases. We recently identified a biased M3 muscarinic acetylcholine receptor (mAChR) ligand, PD 102807, that induces GRK-/arrestin-dependent AMP-activated protein kinase (AMPK) activation to inhibit transforming growth factor-β-induced hypercontractile ASM phenotype. Conversely, the balanced mAChR agonist, methacholine (MCh), activates AMPK yet does not regulate ASM phenotype. In the current study, we demonstrate that PD 102807- and MCh-induced AMPK activation both depend on Ca2+/calmodulin-dependent kinase kinases (CaMKKs). However, MCh-induced AMPK activation is calcium-dependent and mediated by CaMKK1 and CaMKK2 isoforms. In contrast, PD 102807-induced signaling is calcium-independent and mediated by the atypical subtype protein kinase C-iota and the CaMKK1 (but not CaMKK2) isoform. Both MCh- and PD 102807-induced AMPK activation involve the AMPK α1 isoform. PD 102807-induced AMPK α1 (but not AMPK α2) isoform activation mediates inhibition of the mammalian target of rapamycin complex 1 (mTORC1) in ASM cells, as demonstrated by increased Raptor (regulatory-associated protein of mTOR) phosphorylation as well as inhibition of phospho-S6 protein and serum response element-luciferase activity. The mTORC1 inhibitor rapamycin and the AMPK activator metformin both mimic the ability of PD 102807 to attenuate transforming growth factor-β-induced α-smooth muscle actin expression (a marker of hypercontractile ASM). These data indicate that PD 102807 transduces a signaling pathway (AMPK-mediated mTORC1 inhibition) qualitatively distinct from canonical M3 mAChR signaling to prevent pathogenic remodeling of ASM, thus demonstrating PD 102807 is a biased M3 mAChR ligand with therapeutic potential for the management of obstructive airway disease.

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