Gerzanich Volodymyr, Ivanov Alexander, Ivanova Svetlana, Yang Jia Bi, Zhou Hui, Dong Yafeng, Simard J Marc
Department of Neurosurgery, University of Maryland at Baltimore, Baltimore, Md, USA.
Circ Res. 2003 Oct 31;93(9):805-12. doi: 10.1161/01.RES.0000097872.69043.A0. Epub 2003 Sep 25.
Nitrate tolerance (NT) in hypertension is attributed to reduced activity of soluble guanylyl cyclase (sGC). We examined NT in basilar artery vascular smooth muscle cells (VSMCs) from control rats, rats infused with angiotensin II (Ang; 240 microg/kg per hour for 4 days), which were normotensive, and Ang-hypertensive rats (AHR; 240 microg/kg per hour for 28 days). Ca2+-activated K+ (Maxi-K) channels in VSMCs from AHR showed reduced activation by NO donor, consistent with NT. The concentration-response relationship for 8-Br-cGMP was shifted 2.5-fold to the right, indicating that abnormal sGC alone could not account for NT. Inside-out patches from AHR showed normal activation with exogenous cGMP-dependent protein kinase I (cGKI), suggesting no abnormality downstream of cGKI. We hypothesized that the reduction in apparent affinity of 8-Br-cGMP for cGKI in AHR might be due to a change in relative amounts of cGKIalpha versus cGKIbeta, since cGKIbeta is less sensitive to cGMP activators than cGKIalpha. This was substantiated by showing the following in AHR: (1) reduced effect of the cGKIalpha-selective activator 8-APT-cGMP; (2) reduced total cGKI protein (both isoforms), but an increase in cGKIbeta protein in quantitative immunofluorescence and Western blots; (3) similar changes in cGKI isoforms immunoisolated with Maxi-K channels; and (4) a large increase in cGKIbeta mRNA and a decrease in cGKIalpha mRNA in real-time PCR and Northern blots. Upregulation of cytosolic cGKIbeta was evident 4 days after Ang infusion, before development of hypertension. Our data identify a functional role for cGKIbeta in VSMCs previously ascribed exclusively to cGKIalpha. Ang-induced alternative splicing of cGKI represents a novel mechanism for reducing sensitivity to NO/cGMP.
高血压中的硝酸盐耐受性(NT)归因于可溶性鸟苷酸环化酶(sGC)活性降低。我们检测了来自对照大鼠、输注血管紧张素II(Ang;240微克/千克每小时,持续4天)的血压正常大鼠以及Ang高血压大鼠(AHR;240微克/千克每小时,持续28天)的基底动脉血管平滑肌细胞(VSMC)中的NT。AHR的VSMC中Ca2+激活的K+(大电导钾通道,Maxi-K)通道对NO供体的激活作用减弱,这与NT一致。8-溴-cGMP的浓度-反应关系向右移动了2.5倍,表明仅异常的sGC不能解释NT。AHR的内翻膜片对外源性cGMP依赖性蛋白激酶I(cGKI)表现出正常激活,提示cGKI下游无异常。我们推测AHR中8-溴-cGMP对cGKI的表观亲和力降低可能是由于cGKIα与cGKIβ相对含量的变化,因为cGKIβ对cGMP激活剂的敏感性低于cGKIα。以下在AHR中的表现证实了这一点:(1)cGKIα选择性激活剂8-APT-cGMP的作用减弱;(2)定量免疫荧光和蛋白质印迹显示总cGKI蛋白(两种同工型)减少,但cGKIβ蛋白增加;(3)与Maxi-K通道免疫分离的cGKI同工型有类似变化;(4)实时PCR和Northern印迹显示cGKIβ mRNA大幅增加,cGKIα mRNA减少。在Ang输注4天后,即在高血压发生之前,胞质cGKIβ的上调就很明显。我们的数据确定了cGKIβ在VSMC中的功能作用,此前该作用仅归因于cGKIα。Ang诱导的cGKI可变剪接代表了一种降低对NO/cGMP敏感性的新机制。
