香烟提取物活化大鼠支气管平滑肌细胞蛋白激酶C亚型及下调钾通道BK_(Ca)、Kv1.5表达(英文)

大电导的钙活化钾通道（large—conductance calcium—activated potassium channel,BKCa）和电压依赖性钾通道Kv1．5在气道高反应性的发生机制中具有重要作用。已知吸烟可致气道高反应,但钾通道的变化在其发病中的作用尚需进一步阐明。本文旨在研究香烟提取物（cigarette smoke extract,CSE）对培养的大鼠支气管平滑肌细胞（bronchial smooth muscle cells,BSMCs）钾通道BKCa和Kv1．5表达的直接作用,以及蛋白激酶C（protein kinaseC,PKC）在其中的作用。实验采用原代培养大鼠BSMCs,用5％CSE刺激,免疫印迹检测PKC亚型的表达和转位,半定量RT—PCR、免疫印迹实验检测BKCa和Kv1．5的mRNA和蛋白表达,然后用PKC抑制剂BIM和G6e6983与CSE共作用,检测其对BKCa和Kv1．5的mRNA和蛋白表达的影响。结果显示,5％CSE使PKCε、η、θ发生明显的膜转位,并使BKCa。和Kv1．5的蛋白和mRNA表达明显降低;选择性PKC抑制剂BIM或G6e6983与CSE共同作用,均可使BKCa和Kv1．5的蛋白和mRNA表达部分恢复。上述结果提示,CSE可引起BSMCs的BKCa和Kv1．5表达下调,PKCε、η、θ参与其信号转导。     

ERK1/2对低氧大鼠肺动脉平滑肌细胞Kv1.5通道表达的影响

目的:探讨ERK1/2对低氧大鼠肺动脉平滑肌细胞(PASMCs)电压门控性钾离子通道(Kv1.5)表达的影响及其机制。方法:原代培养SD大鼠PASMCs,选3~6代PASMCs随机分组:1正常组(N);2低氧组(H);3DMSO组(HD);4U0126组(HU):10μmol/L U0126;5茴香霉素组(HA):10μmol/L茴香霉素。每组3皿细胞,正常组于常氧培养箱(5%CO2,37℃),其余各组均加入0.05%二甲基亚砜(DMSO)于低氧培养箱(5%CO2,2%O2,37℃),均培养60 h。采用RT-PCR和Western blot法测定PASMCs Kv1.5 mRNA和蛋白表达。结果:与N组相比,H、HD、HA组Kv1.5 mRNA和蛋白表达均明显降低(P0.05);较之H和HD组,HU组Kv1.5 mRNA和蛋白表达明显上升((P0.05),与HU组比较,HA组Kv1.5 mRNA和蛋白表达均明显降低(P0.05)。结论:低氧降低Kv1.5 mRNA和蛋白表达,U0126能够对抗低氧引起的Kv1.5通道的低表达,茴香霉素对低氧条件下Kv1.5通道表达无明显影响,但其表达仍显著低于常氧组,提示低氧可能通过干预ERK1/2信号通路抑制Kv1.5通道表达引起低氧性肺动脉高压。     

BKca蛋白通过调节SR-B1的表达介导胆固醇转运

[目的]探讨BKca通道蛋白对B族Ⅰ型清道夫受体(SR-B1)表达和调控胆固醇转运的影响。[方法]人脐静脉内皮细胞(HUVEC)体外传代培养2~5代,分为对照组、过表达BKca组和基因干扰BKca组。实时荧光定量PCR和蛋白免疫印迹法分别检测BKca的α及β亚基、SR-B1 mRNA和蛋白表达水平及胆固醇检测试剂盒检测胆固醇流出水平。[结果]与对照组相比,BKca过表达后SR-B1 mRNA及蛋白表达水平明显升高和基因干扰BKca后SR-B1 mRNA及蛋白表达水平明显降低(均P0.05)。BKca过表达后胆固醇流出水平明显升高,而基因干扰BKca后的胆固醇流出水平明显下降(均P0.05)。[结论]BKca通道蛋白上调SR-B1的表达,促进细胞内胆固醇的流出。     

蛋白激酶C对大鼠支气管平滑肌KV通道的影响

用全细胞膜片钳、Western印迹法和逆转录—PCR技术,观察蛋白激酶C(protein kinase C,PKC)对大鼠支气管平滑肌细胞(bronchial smooth muscle cells,BSMCs)电压依赖性延迟整流钾通道(Kv)活性及其亚型Kvl．5表达的影响。结果为：(1)PKC激活剂豆蔻酰佛波醇乙酯(phorbol 12-myristate 13-acetate,PMA)显著抑制急性分离大鼠BSMCs的Kv通道电流,该效应被PKC阻断剂Ro31—8220显著抑制;(2)PMA显著抑制体外培养大鼠BSMCs的Kvl．5 mRNA和蛋白质的表达,该效应被Ro31—8220显著抑制。上述观察结果提示,PKC活化可抑制大鼠BSMCs的Kv通道电流活性,下调Kvl．5亚型的表达水平。     

四周模拟失重大鼠后身动脉平滑肌细胞钾电流的改变

本文采用全细胞膜片钳方法观察4周尾部悬吊大鼠（tail-suspended rats,SUS)隐动脉及肠系膜的动脉第2-6级动脉分支血管平滑肌细胞（vascular smooth muscle cells,VSMCs)钾电流密度的变化,结果表明：SUS大鼠后身动脉VSMCs的静息电位（RP）较对照大鼠（CON）后身动脉VSMCs的RP更负,SUS组隐动脉和肠系膜小鼠后身动脉VSMCs的静息电位（RP）较对照大鼠（CON）后身动脉VSMCs的RP更负,SUS组隐动脉和肠系膜小动脉VSMCs的全细胞钾电流密度较CON组显著增加,其中,SUS组的隐动脉和肠系膜小动脉VSMCs的大电导钙激活钙离子通道（BKca)和电压激活钾离子通道（Kv)电流密度较CON组的BKca和Kv电流密度均显著增加,以上结果提示,VSMCs的超极化及进一步引起的通过电压依赖性钙离子通道的钙内流减少可能是模拟失重引起后身动脉反应性降低的电生理机制之一。     

自发性高血压大鼠和Wistar大鼠淋巴细胞Kv通道表达差异

本研究采用全细胞膜片钳技术、实时荧光定量PCR技术及Western blot技术检测自发性高血压大鼠(spontaneously hypertensive rat,SHR)和Wistar大鼠外周血淋巴细胞电压依赖性钾通道(voltage dependent potassium channel,Kv)电流密度及Kv1.3mRNA和蛋白表达水平,探讨淋巴细胞Kv通道在高血压病中的变化,为高血压病淋巴细胞激活提供证据。结果显示:(1)SHR淋巴细胞Kv峰值(取自阶跃电压中+60mV)电流密度为(119±10)pA/pF(n=30),Wistar大鼠为(56±9)pA/pF(n=40),SHR淋巴细胞Kv峰值电流密度明显高于Wistar大鼠(P0.05);(2)与Wistar大鼠相比,SHR淋巴细胞Kv1.3 mRNA表达增多(P0.05);(3)SHR淋巴细胞Kv1.3蛋白表达水平高于Wistar大鼠(P0.05)。结果提示,SHR淋巴细胞上有更多功能性Kv通道,Kv通道可能与SHR淋巴细胞激活有关。     

TNF—α对哮喘模型大鼠气道平滑肌细胞增殖及ERK1／2活性的影响

目的探讨TNF—α对哮喘大鼠气道平滑肌细胞（ASMCs）增殖及对ASMCs上ERK1／2mRNA、p-ERK1／2表达水平的影响。方法通过对哮喘模型大鼠ASMCs培养,分别以0．2μg／L、1．0μg/L、20μg/L TNF-α干预ASMCs生长。采用流式细胞仪、MTT法检测ASMCs增殖情况,观察不同浓度TNF—α对ASMCs增殖的影响。RT-PCR检测ASMCs上ERK1／2mRNA表达,免疫细胞化学染色法检测磷酸化ERK1／2蛋白的表达及定位。结果哮喘组ASMCsS期比例、A值、ERK1／2mRNA、p-ERK1／2蛋白的表达量分别为（34．45±2．08）％、（0．550±0．010）、（0．995±0．118）、（130．77±4．16）,与对照组（11．17±0．96）％、（0．292±0．008）、（0．576±0．098）、（163．82±1．38）比较均显著增高（均P〈0．01）。各TNF—α干预组ASMCs的S期比例、A值、ERK1／2mRNA和p-ERK1／2蛋白表达量与哮喘组比较均显著降低（均P〈0．01）,0．2μg/L和1．0μg／LTN-α组p-ERK1／2蛋白表达量高于对照组（P〈0．01）,20μg／L TNF-α组p-ERK1／2蛋白表达量与对照组比较无差异（P〉0．05）。结论与正常鼠相比,慢性哮喘大鼠气道平滑肌细胞增殖明显,处于S期的细胞比例明显增高。经TNF—α干预后,慢性哮喘大鼠气道平滑肌细胞处于S期的细胞比例减少,增殖减弱,TNF-α可能抑制慢性哮喘大鼠气道平滑肌细胞增殖。TNF—α可下调慢性哮喘大鼠气道平滑肌细胞上ERK1／2mRNA及p-ERK1／2表达,TNF-α可能通过抑制ERK信号转导通道的活性对气道平滑肌细胞的增殖进行调控。     

雷公藤对哮喘大鼠气道重构及磷脂酰肌醇3激酶表达的影响

目的:探讨雷公藤内酯醇对哮喘气道重构及磷脂酰肌醇3激酶(PI3K)表达的影响。方法:将40只SD大鼠随机分为5组(n=8):A组(正常对照组);B组(哮喘4周组);C组(哮喘6周组);D组(给药4周组);E组(给药6周组)。测定气道反应性并观察气道壁嗜酸性粒细胞浸润;图像分析软件测定支气管壁厚度、支气管平滑肌厚度及支气管平滑肌细胞核数量;免疫组织化学染色、逆转录聚合酶链式反应(RT-PCR)检测PI3K蛋白及mRNA表达。结果:①B组、C组PI3Kp85α的蛋白及mRNA表达水平显著高于A组(P均<0.01),E组上述指标较B组、C组、D组均显著降低(P<0.01、P<0.01、P<0.05);②B组及C组支气管壁厚度、支气管壁平滑肌厚度、支气管壁平滑肌细胞核数量均较A组明显增加(P均<0.01),而E组上述指标较B组、C组、D组均显著降低(P均<0.01);③B组、C组的气道反应性均高于A组(P均<0.01),E组较B组、C组、D组均显著降低(P<0.01、P<0.01、P<0.05)。结论:气道平滑肌增生是气道重构的一个显著特征,PI3K可能在此起促进作用。雷公藤内酯醇可能通过下调PI3K的表达而减轻哮喘气道高反应性及抑制气道平滑肌增生,对哮喘气道重构有一定治疗作用。     

大电导钙激活钾通道对大鼠骨髓间充质干细胞增殖的影响

为了观察开放和拮抗大电导钙激活钾通道（bigconductanceCa2＋-activated砧channel．BKca）对大鼠骨髓间充质干细胞（bonemarrowmesenchymalstemcells,BMSCs）增殖的影响并探讨其机制,该研究分离培养了大鼠BMSCs,采用BKca通道特异性开放剂msl619）和拮抗剂（IBTX）干预,MTT、平板克隆测定细胞增殖活力及细胞克隆形成能力;流式细胞术分析细胞凋亡及细胞周期分布;Westernblot、定量PCR检测周期蛋白cyclinD1基因和蛋白表达水平;整细胞膜片钳技术分析细胞膜电生理特性。结果显示,NS1619干预组与对照组相比,BMSCs~胞膜科通道外向电流振幅增大,细胞增殖能力和克隆形成能力增强,凋亡减少。此外,开放BKca通道明显促进细胞从G1期向S期过渡,cyclinD1蛋白7LmRNA表达上调,而拮抗BKca通道则相反。推测,BKca通道通过调节细胞周期进程最终影响细胞增殖,该作用可能与其具有调控细胞膜心电流的电生理特性有关。     

咪喹莫特对慢性哮喘模型小鼠肺组织中基质金属蛋白酶-9-表达的影响

目的：观察Toll样受体7配体咪喹莫特对慢性哮喘小鼠模型气道重塑及肺组织中基质金属蛋白酶MMP-9表达的影响。方法：36只BALB／c小鼠按随机原则分成正常对照组、哮喘模型组、咪喹莫特组,每组12只。通过卵蛋白致敏,气道激发8周,末次激发24h后,检测各组小鼠气道反应性,HE染色观察气道炎症变化;Masson三色染色观察气道纤维化的改变;real-timePCR和western—blot分别检测肺组织中MMP-9的mRNA和蛋白表达。结果：慢性哮喘组小鼠气道炎症、气道高反应性和气道重塑较正常对照小鼠明显加重,而咪喹莫特组小鼠模型的气道炎症和气道反应性及气道重塑均较哮喘模型组小鼠减少或降低。慢性哮喘组小鼠肺组织MMP-9的mRNA和蛋白水平均较正常对照小鼠明显增加（P〈0．05）,而咪喹莫特治疗可显著降低哮喘小鼠肺组织MMP-9的mRNA和蛋白水平（P〈0．05）。结论：咪喹莫特能够显著抑制慢性哮喘小鼠模型的气道炎症、降低气道高反应性并减轻气道重塑,这可能与其抑制MMP-9的表达有关。     

Involvement of Kv1.5 Protein in Oxidative Vascular Endothelial Cell Injury

Endothelial injury related to oxidative stress is a key event in cardiovascular diseases, such as hypertension and atherosclerosis. The activation of the redox-sensitive Kv1.5 potassium channel mediates mitochondrial reactive oxygen species (ROS)-induced apoptosis in vascular smooth muscle cells and some cancer cells. Kv1.5 channel is therefore taken as a new potential therapeutic target for pulmonary hypertension and cancers. Although Kv1.5 is abundantly expressed in vascular endothelium, there is little knowledge of its role in endothelial injury related to oxidative stress. We found that DPO-1, a specific inhibitor of Kv1.5, attenuated H₂O₂-evoked endothelial cell apoptosis in an in vivo rat carotid arterial model. In human umbilical vein endothelial cells (HUVECs) and human pulmonary arterial endothelial cells (HPAECs), angiotensin II and oxLDL time- or concentration-dependently enhanced Kv1.5 protein expression in parallel with the production of intracellular ROS and endothelial cell injury. Moreover, siRNA-mediated knockdown of Kv1.5 attenuated, whereas adenovirus-mediated Kv1.5 cDNA overexpression enhanced oxLDL–induced cellular damage, NADPH oxidase and mitochondria-derived ROS production and restored the decrease in protein expression of mitochondria uncoupling protein 2 (UCP2). Collectively, these data suggest that Kv1.5 may play an important role in oxidative vascular endothelial injury.     

Chronic hypoxia decreases K(V) channel expression and function in pulmonary artery myocytes

Activity of voltage-gated K+ (KV) channels regulates membrane potential (E(m)) and cytosolic free Ca2+ concentration ([Ca2+](cyt)). A rise in ([Ca2+](cyt))in pulmonary artery (PA) smooth muscle cells (SMCs) triggers pulmonary vasoconstriction and stimulates PASMC proliferation. Chronic hypoxia (PO(2) 30-35 mmHg for 60-72 h) decreased mRNA expression of KV channel alpha-subunits (Kv1.1, Kv1.5, Kv2.1, Kv4.3, and Kv9.3) in PASMCs but not in mesenteric artery (MA) SMCs. Consistently, chronic hypoxia attenuated protein expression of Kv1.1, Kv1.5, and Kv2.1; reduced KV current [I(KV)]; caused E(m) depolarization; and increased ([Ca2+](cyt)) in PASMCs but negligibly affected KV channel expression, increased I(KV), and induced hyperpolarization in MASMCs. These results demonstrate that chronic hypoxia selectively downregulates KV channel expression, reduces I(KV), and induces E(m) depolarization in PASMCs. The subsequent rise in ([Ca2+](cyt)) plays a critical role in the development of pulmonary vasoconstriction and medial hypertrophy. The divergent effects of hypoxia on KV channel alpha-subunit mRNA expression in PASMCs and MASMCs may result from different mechanisms involved in the regulation of KV channel gene expression.     

检测心肌细胞钾离子通道蛋白活化水平方法的优化

介绍了一种如何合理的利用蛋白质免疫沉淀和蛋白质免疫印迹相结合的方法检测大鼠心肌细胞钾离子通道蛋白Kv1.2和Kv1.5的表达与活化水平.实验结果表明,与单独利用免疫印迹的方法相比较,本实验是对钾离子通道蛋白及其它亚家族的钾通道蛋白磷酸化表达水平检测方法的一种优化,从而获得一套可行、简单、合理的实验方案,同时也提高了检测的准确性,敏感性及特异性.     

检测心肌细胞钾离子通道蛋白活化水平方法的优化

介绍了一种如何合理的利用蛋白质免疫沉淀和蛋白质免疫印迹相结合的方法检测大鼠心肌细胞钾离子通道蛋白Kv1.2和Kv1.5的表达与活化水平。实验结果表明, 与单独利用免疫印迹的方法相比较, 本实验是对钾离子通道蛋白及其它亚家族的钾通道蛋白磷酸化表达水平检测方法的一种优化, 从而获得一套可行、简单、合理的实验方案, 同时也提高了检测的准确性, 敏感性及特异性。     

Mouse Protocadherin-1 Gene Expression Is Regulated by Cigarette Smoke Exposure In Vivo

Protocadherin-1 (PCDH1) is a novel susceptibility gene for airway hyperresponsiveness, first identified in families exposed to cigarette smoke and is expressed in bronchial epithelial cells. Here, we asked how mouse Pcdh1 expression is regulated in lung structural cells in vivo under physiological conditions, and in both short-term cigarette smoke exposure models characterized by airway inflammation and hyperresponsiveness and chronic cigarette smoke exposure models. Pcdh1 gene-structure was investigated by Rapid Amplification of cDNA Ends. Pcdh1 mRNA and protein expression was investigated by qRT-PCR, western blotting using isoform-specific antibodies. We observed 87% conservation of the Pcdh1 nucleotide sequence, and 96% conservation of the Pcdh1 protein sequence between men and mice. We identified a novel Pcdh1 isoform encoding only the intracellular signalling motifs. Cigarette smoke exposure for 4 consecutive days markedly reduced Pcdh1 mRNA expression in lung tissue (3 to 4-fold), while neutrophilia and airway hyperresponsiveness was induced. Moreover, Pcdh1 mRNA expression in lung tissue was reduced already 6 hours after an acute cigarette-smoke exposure in mice. Chronic exposure to cigarette smoke induced loss of Pcdh1 protein in lung tissue after 2 months, while Pcdh1 protein levels were no longer reduced after 9 months of cigarette smoke exposure. We conclude that Pcdh1 is highly homologous to human PCDH1, encodes two transmembrane proteins and one intracellular protein, and is regulated by cigarette smoke exposure in vivo.     

Role of capacitative Ca2+ entry in bronchial contraction and remodeling.

Asthma is characterized by airway inflammation, bronchial hyperresponsiveness, and airway obstruction by bronchospasm and bronchial wall thickening due to smooth muscle hypertrophy. A rise in cytosolic free Ca2+ concentration ([Ca2+]cyt) may serve as a shared signal transduction element that causes bronchial constriction and bronchial wall thickening in asthma. In this study, we examined whether capacitative Ca2+ entry (CCE) induced by depletion of intracellular Ca2+ stores was involved in agonist-mediated bronchial constriction and bronchial smooth muscle cell (BSMC) proliferation. In isolated bronchial rings, acetylcholine (ACh) induced a transient contraction in the absence of extracellular Ca2+ because of Ca2+ release from intracellular Ca2+ stores. Restoration of extracellular Ca2+ in the presence of atropine, an M-receptor blocker, induced a further contraction that was apparently caused by a rise in [Ca2+]cyt due to CCE. In single BSMC, amplitudes of the store depletion-activated currents (I(SOC)) and CCE were both enhanced when the cells proliferate, whereas chelation of extracellular Ca2+ with EGTA significantly inhibited the cell growth in the presence of serum. Furthermore, the mRNA expression of TRPC1, a transient receptor potential channel gene, was much greater in proliferating BSMC than in growth-arrested cells. Blockade of the store-operated Ca2+ channels by Ni2+ decreased I(SOC) and CCE and markedly attenuated BSMC proliferation. These results suggest that upregulated TRPC1 expression, increased I(SOC), enhanced CCE, and elevated [Ca2+]cyt may play important roles in mediating bronchial constriction and BSMC proliferation.