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小窝是否在 G 蛋白门控内向整流钾通道的受体激活保真度和动力学中发挥作用?

Do caveolae have a role in the fidelity and dynamics of receptor activation of G-protein-gated inwardly rectifying potassium channels?

机构信息

Department of Medicine, BHF Laboratories, The Rayne Institute, University College London, London WC1E 6JJ, United Kingdom.

出版信息

J Biol Chem. 2010 Sep 3;285(36):27817-26. doi: 10.1074/jbc.M110.103598. Epub 2010 Jun 18.

Abstract

In atrial and nodal cardiac myocytes, M2 muscarinic receptors activate inhibitory G-proteins (G(i/o)), which in turn stimulate G-protein-gated inwardly rectifying K(+) channels through direct binding of the Gbetagamma subunit. Despite also releasing Gbetagamma, G(s)-coupled receptors such as the beta-adrenergic receptor are not able to prominently activate this current. An appealing hypothesis would be if components were sequestered in membrane domains such as caveolae/rafts. Using biochemical fractionation followed by Western blotting and/or radioligand binding experiments, we examined the distribution of the components in stable HEK293 and HL-1 cells, which natively express the transduction cascade. The channel, M2 muscarinic, and A1 adenosine receptors were located in noncaveolar/nonraft fractions. G(i)alpha(1/2) was enriched in both caveolar/raft and noncaveolar/nonraft fractions. In contrast, G(s)alpha was only enriched in caveolar/raft fractions. We constructed YFP-tagged caveolin-2 (YFP-Cav2) and chimeras with the M2 (M2-YFP-Cav2) and A1 (A1-YFP-Cav2) receptors. Analysis of gradient fractions showed that these receptor chimeras were now localized to caveolae-enriched fractions. Microscopy showed that M2-YFP and A1-YFP had a diffuse homogenous membrane signal. YFP-Cav2, M2-YFP-Cav2, and A1-YFP-Cav2 revealed a more punctuate pattern. Finally, we looked at the consequences for signaling. Activation via M2-YFP-Cav2 or A1-YFP-Cav2 revealed substantially slower kinetics compared with M2-YFP or A1-YFP and was reversed by the addition of methyl-beta-cyclodextrin. Thus the localization of the channel signal transduction cascade in non-cholesterol rich domains substantially enhances the speed of signaling. The presence of G(s)alpha solely in caveolae may account for signaling selectivity between G(i/o) and G(s)-coupled receptors.

摘要

在心房和结状心肌细胞中,M2 毒蕈碱型乙酰胆碱受体激活抑制性 G 蛋白(G(i/o)),后者通过 Gβγ 亚基的直接结合,反过来刺激 G 蛋白门控内向整流钾 (K+) 通道。尽管 G(s)-偶联受体(如β-肾上腺素能受体)也释放 Gβγ,但它们不能显著激活这种电流。一个有吸引力的假设是,如果这些成分被隔离在膜域中,如 caveolae/rafts。我们使用生化分级分离,然后进行 Western blot 和/或放射性配体结合实验,检查了在稳定表达转导级联的 HEK293 和 HL-1 细胞中这些成分的分布。通道、M2 毒蕈碱和 A1 腺苷受体位于非 caveolae/nonraft 部分。G(i)alpha(1/2)在 caveolae/raft 和 noncaveolar/nonraft 部分都有富集。相比之下,G(s)alpha 仅在 caveolae/raft 部分富集。我们构建了 YFP 标记的 caveolin-2(YFP-Cav2)和与 M2(M2-YFP-Cav2)和 A1(A1-YFP-Cav2)受体的嵌合体。梯度部分的分析表明,这些受体嵌合体现在定位于富含 caveolae 的部分。显微镜检查显示,M2-YFP 和 A1-YFP 具有弥散均匀的膜信号。YFP-Cav2、M2-YFP-Cav2 和 A1-YFP-Cav2 显示出更明显的点状模式。最后,我们研究了信号转导的后果。通过 M2-YFP-Cav2 或 A1-YFP-Cav2 的激活显示出比 M2-YFP 或 A1-YFP 慢得多的动力学,并且可以通过添加甲基-β-环糊精来逆转。因此,通道信号转导级联在非胆固醇丰富的区域中的定位大大增强了信号转导的速度。G(s)alpha 仅存在于 caveolae 中可能解释了 G(i/o)和 G(s)-偶联受体之间信号转导的选择性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a84a/2934649/66d7e14335fb/zbc0371028960001.jpg

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