GPCR OGR1(GPR68)介导细胞外 pH 值轻微下降时气道平滑肌的多种信号转导和收缩。
The GPCR OGR1 (GPR68) mediates diverse signalling and contraction of airway smooth muscle in response to small reductions in extracellular pH.
机构信息
Division of Pulmonary and Critical Care Medicine, Department of Medicine, University of Maryland School of Medicine, Baltimore, MD 21201-1075, USA.
出版信息
Br J Pharmacol. 2012 Jun;166(3):981-90. doi: 10.1111/j.1476-5381.2011.01807.x.
BACKGROUND AND PURPOSE
Previous studies have linked a reduction in pH in airway, caused by either environmental factors, microaspiration of gastric acid or inflammation, with airway smooth muscle (ASM) contraction and increased airway resistance. Neural mechanisms have been shown to mediate airway contraction in response to reductions in airway pH to < 6.5; whether reduced extracellular pH (pHo) has direct effects on ASM is unknown.
EXPERIMENTAL APPROACH
Intracellular signalling events stimulated by reduced pHo in human cultured ASM cells were examined by immunoblotting, phosphoinositide hydrolysis and calcium mobilization assays. ASM cell contractile state was examined using magnetic twisting cytometry. The expression of putative proton-sensing GPCRs in ASM was assessed by real-time PCR. The role of ovarian cancer G protein-coupled receptor 1 (OGR1 or GPR68) in acid-induced ASM signalling and contraction was assessed in cultures subjected to siRNA-mediated OGR1 knockdown.
KEY RESULTS
ASM cells responded to incremental reductions in pHo (from pH 8.0 to pH 6.8) by activating multiple signalling pathways, involving p42/p44, PKB, PKA and calcium mobilization. Coincidently, ASM cells contracted in response to decreased pHo with similar 'dose'-dependence. Real-time PCR suggested OGR1 was the only proton-sensing GPCR expressed in ASM cells. Both acid-induced signalling (with the exception of PKB activation) and contraction were significantly attenuated by knockdown of OGR1.
CONCLUSIONS AND IMPLICATIONS
These studies reveal OGR1 to be a physiologically relevant GPCR in ASM cells, capable of pleiotropic signalling and mediating contraction in response to small reductions in extracellular pH. Accordingly, ASM OGR1 may contribute to asthma pathology and represent a therapeutic target in obstructive lung diseases.
背景与目的
先前的研究表明,气道中 pH 值的降低(由环境因素、胃酸的微吸入或炎症引起)与气道平滑肌(ASM)收缩和气道阻力增加有关。神经机制已被证明可介导气道收缩,以响应气道 pH 值降至<6.5;而细胞外 pH 值(pHo)降低是否对 ASM 有直接影响尚不清楚。
实验方法
通过免疫印迹、磷酸肌醇水解和钙动员测定,研究了 pHo 降低刺激人培养的 ASM 细胞中的细胞内信号事件。使用磁扭动力学细胞术检测 ASM 细胞的收缩状态。通过实时 PCR 评估 ASM 中假定的质子感应 GPCR 的表达。在接受 siRNA 介导的 OGR1 敲低的培养物中,评估卵巢癌 G 蛋白偶联受体 1(OGR1 或 GPR68)在酸诱导的 ASM 信号转导和收缩中的作用。
主要结果
ASM 细胞对 pHo 的递增降低(从 pH 8.0 降至 pH 6.8)作出反应,激活了涉及 p42/p44、PKB、PKA 和钙动员的多种信号通路。同时,ASM 细胞对 pHo 的降低以类似的“剂量”依赖性收缩。实时 PCR 表明 OGR1 是 ASM 细胞中唯一表达的质子感应 GPCR。OGR1 敲低显著减弱了酸诱导的信号转导(除 PKB 激活外)和收缩。
结论和意义
这些研究表明,OGR1 是 ASM 细胞中一种具有生理相关性的 GPCR,能够进行多效性信号转导,并介导细胞外 pH 值降低时的收缩。因此,ASM OGR1 可能有助于哮喘病理,并代表阻塞性肺部疾病的治疗靶点。
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