Dynamic Expression of Hyperpolarization-activated Cyclic Nucleotide-gated Cation Channel 4 Involved in Microwave Induced Pacemaker Cell Injuries

To investigate the mechanisms of microwave induced pacemaker cell injuries, Wistar rats and the primary pacemaker cells of newborn Wistar rats were exposed to microwave at average power density of 50 mW/cm2. Slower spontaneous beating rate, intercellular Ca2＋ aggregation and cell membrane perforation were detected immediately after the exposure. Moreover, hyperpolarizationactivated cyclic nucleotide-gated cation channel 4 （HCN4） was down-regulated immediately after the exposure and up-regulated at 12 h after the exposure. In the sinoatrial node （SAN） of the rats,

Molecular Mechanisms of Cyclic Nucleotide-Gated Ion Channel Gating

Cyclic nucleotide-gated ion channels （CNGs） are distributed most widely in the neuronal cell. Great progress has been made in molecular mechanisms of CNG channel gating in the recent years. Results of many experiments have indicated that the stoichiometry and assembly of CNG channels affect their property and gating. Experiments of CNG mutants and analyses of cys- teine accessibilities show that cyclic nucleotide-binding domains （CNBD） bind cyclic nucleotides and subsequently conformational changes occurred followed by the concerted or cooperative conformational change of all four subunits during CNG gating. In order to provide theoretical assistances for further investigation on CNG channels, especially regarding the disease pathogenesis of ion channels, this paper reviews the latest progress on mechanisms of CNG channels, functions of subunits, processes of subunit assembly, and conformational changes of subunit regions during gating.

Genome-wide identification and analysis of the CNGC gene family in upland cotton under multiple stress conditions

Background The cyclic nucleotide-gated channel(CNGC)gene family plays a significant role in the uptake of both essential and toxic cations,and has a role in enhancing tolerance to various forms of abiotic stresses as well as the modulation of the heavy metal toxicity to plant through the absorption of heavy metals.Results A complete genome-wide identification and functional characterization of the cotton CNGC genes was carried out,in which 55,28,and 29 CNGC genes were identified in Gossypium hirsutum,G.raimondii,and G.arboreum,respectively.The protein encoded by the CNGC genes exhibited GRAVY value below zero,indicating their hydrophilic property.CNGC genes were unevenly distributed in 19 out of 26 chromosomes,in which the highest density were observed on Ah05,with 8 genes.High gene coverage was observed among the diploid cotton species,with CNGC genes mapped on all A chromosomes and on 11 out of 13 of D chromosomes.The majority of CNGC proteins were localized in the endoplasmic reticulum,nucleus,and plasma membrane.Gene expression analysis revealed the up-regulation of Gh_A01G0520(CNGC4)and Gh_D13G1974(CNGC5)across various forms of abiotic stresses.Moreover,down-regulation of Gh_A01G0520(CNGC4)and Gh_D13G1974(CNGC5)in CNGCs silenced plants caused the significantly reduced ability to tolerate drought and salt stresses.All CNGCs silenced plants were recorded to have significantly low content of antioxidants but relatively higher content of oxidant,including MDA and H_(2)O_(2).Furthermore,SPAD,CMS(cell membrane stability),ELWL(excised leaf water loss),SDW(shoot dry matter weight),and RDW(root dry matter weight)were all lower in CNGCs silenced plants compared with the wild type plants.Conclusion Significant reduction in antioxidant content and negative effects of physiological and morphological characters in CNGCs silenced plants has revealed the novel role of CNGC genes in enhancing cell integrity under abiotic stress conditions.These results provide vital information that will expand our understanding of the CNGC gene family in cotton and other plants,thus promoting the integration of these genes in the development of the environmental resilient plants.

The Role of Cyclic Nucleotide-Gated Ion Channels in Plant Immunity

Since the first plant cyclic nucleotide-gated ion channel （CNGC）, HvCBT1, was identified as a calmodulin bind- ing protein, more than a decade has passed and a substantial amount of work has been done to understand the molecular nature and function of these channel proteins. Based on electrophysiological and heterologous expression analyses, plant CNGCs function as non-selective cation channels and, so far, their biological roles have been reported in defense responses, development, and ion homeostasis. Forward genetic approaches identified four AtCNGCs （AtCNGC2, 4, 11, and 12） to be involved in plant immunity, as null mutants for AtCNGC2, 4, 11, and 12 as well as a gain-of- function mutant for AtCNGC11 and 12 exhibited alterations in defense responses. Since ion flux changes have been reported as one of the early events upon pathogen recognition and also are an essential component for the activation of defense responses, the involvement of CNGCs in these ion flux changes has been suggested. However, the recent detailed characterization of null mutants suggested a more complex involvement of this channel family. In this review, we focus on the discoveries and character- ization of these CNGC mutants and discuss possible roles of CNGCs as components in plant immunity.

Electrophysiology of hyperpolarization-activated cyclic nucleotidegated cation channel 2 and hyperpolarization-activated cyclic nucleotide-gated cation channel 4 expressed in HEK293 cells

The action potential of pacemaker cells in the sino-atrial node forms the automatic rhythm of the heart. The automatic depolarization in phase 4 is me DaSlS of the automaticity in pacemaker cells. Many currents are included in phase 4, such as calcium current, TTX-sensitive sodium current, sustained inward current （Isi）, decay of delayed rectifier potassium current, etc. Funny current （If） has long been recognized as important in this phase and is activated at hyperpolarized potentials during cell diastole and in turn activates other currents to form automatic depolarization.

超极化激活的环核苷酸门控通道1参与七氟烷诱导的顺行性遗忘作用的机制研究

目的旨在探讨超极化激活的环核苷酸门控通道1(hyperpolarization-activated cyclic nucleotide-gated cation channel 1,HCN1)在七氟烷诱导的顺行性遗忘中的作用机制。方法采用雄性SPF级C57BL/6J野生型小鼠(WT组,n=60)和HCN1基因全身敲除(HCN1-/-)小鼠(HCN1-/-组,n=60)。将两组小鼠分别暴露于不同浓度的七氟烷(0%、0.1%、0.2%、0.4%、0.6%和0.8%)下,每个浓度10只小鼠。随后进行条件性恐惧实验,计算两组小鼠七氟烷抑制条件性恐惧记忆的半数效应浓度(median effective concentration,用EC50表示)。采用全细胞膜片钳技术记录0.125mmol/L七氟烷浓度灌流液对转染HCN1的人胚肾293细胞(HEK293-HCN1)上HCN1电流的影响,比较七氟烷处理前(Control组)和处理后(Sevoflurane组)HCN1电流的变化。结果与-/-WT组小鼠相比,HCN1组小鼠在七氟烷抑制场景恐惧记忆和声音恐惧记忆中的EC50值升高,差异有统计学意义(场景恐惧记忆:0.18%比0.26%,P<0.001;声音恐惧记忆:0.47%比0.49%,P<0.001)。全细胞电生理记录显示,与基础值相比,0.125mmol/L七氟烷抑制HEK293-HCN1细胞在﹣90~﹣140mV范围内的电流幅度(P值均<0.05),并增加了半最大激活电压(V1/2a)值[(﹣108±2.9)mV比(﹣100.1±3.0)mV,(P<0.001)]。结论HCN1电流的抑制可能参与了七氟烷诱导的顺行性遗忘作用。

ZD 7288,an HCN channel blocker,attenuates chronic visceral pain in irritable bowel syndrome-like rats

AIM: To investigate the effects of ZD 7288, a hyperpolarization-activated cyclic nucleotide-gated (HCN) channel blocker, on rats with chronic visceral pain.

电针对逼尿肌过度活动大鼠膀胱ICCs相关HCN亚型及钙离子震荡特性的影响

目的观察电针对逼尿肌过度活动(detrusor overactivity,DO)大鼠膀胱Cajal间质细胞(interstitial cells of cajal,ICCs)超极化激活环核苷酸门控阳离子通道(hyperpolarization-activated cyclic nucleotide-gated cation channels,HCN)相关亚型表达水平及细胞内钙离子震荡特性的影响。方法40只Wistar雌性大鼠随机分为对照组、模型组、电针组和药物组,每组10只。除对照组外,其余大鼠均采用环磷酰胺腹腔注射制备DO模型,电针组在模型基础上给予电针次髎和会阳,每日1次,每次20 min,连续3 d;药物组予甲磺酸伊马替尼灌胃,每日1次,连续3 d。对照组、模型组和药物组大鼠同电针组予以对照捆绑固定20 min,对照、模型和电针组同药物组予以同等体质量计量的饮用水灌胃处理,均每日1次,连续3 d。采用Western Blot和RT-PCR检测HCN1-44种亚型的表达,运用钙离子成像技术检测电针对ICCs内钙离子震荡特性的影响。结果与对照组比较,模型组大鼠膀胱ICCs相关HCN1和HCN2的蛋白和mRNA表达均升高(P<0.05);与模型组比较,电针组和药物组HCN1和HCN2的蛋白和mRNA表达均降低(P<0.05);4组HCN3、HCN4比较差异均无统计学意义(P>0.05)。与对照组比较,模型组大鼠膀胱ICCs内钙离子震荡幅度、频率和宽度明显升高(P<0.05);与模型组比较,电针组和药物组膀胱ICCs内钙离子震荡频率和幅度均下降(P<0.05),而钙离子震荡宽度无明显变化(P>0.05)。结论电针可能通过抑制DO大鼠膀胱ICCs起搏通道相关HCN1和HCN2的表达,及降低ICCs内钙离子震荡的幅度和频率,达到调控DO的作用。

肠润方对功能性便秘大鼠结肠运动调控的机制研究

目的:探讨中药复方肠润方影响功能性便秘大鼠结肠运动的作用机制。方法:选取健康SD大鼠72只,随机分为空白组、模型组、麻仁丸组、肠润方高剂量组、肠润方中剂量组、肠润方低剂量组,每组12只。除空白组外,其余各组均采用复方地芬诺脂灌胃建立功能性便秘大鼠肠动力障碍模型。采用多导生理记录仪检测肠润方水提液对大鼠离体结肠张力、收缩波振幅的影响;通过Western-Blot检测大鼠结肠酪氨酸蛋白激酶生长因子受体(Tyrosine Kinase Growth Factor Receptor,C-Kit)、干细胞因子(Stem Cell Factor,SCF)、超极化激活环核苷酸门控的阳离子通道1(Hyperpolarization-activated Cyclic nucleotide-gated Cation Channel 1,HCN1)、超极化激活环核苷酸门控的阳离子通道2(Hyperpolarization-activated Cyclic nucleotide-gated Cation Channel 2,HCN2)的蛋白表达水平;通过RT-PCR实验检测大鼠结肠C-Kit、SCF、HCN1、HCN2的mRNA表达水平。结果:①离体肠管运动实验结果显示,不同浓度肠润方水提液均可改善地芬诺酯所致的大鼠离体结肠张力的下降,同时提高收缩波振幅;②与空白组比较,模型组C-Kit、SCF、HCN1、HCN2在结肠的蛋白及mRNA表达显著降低(P<0.01)。肠润方高剂量组和肠润方中剂量组可显著升高C-Kit、SCF、HCN1、HCN2的蛋白表达及mRNA表达(P<0.01)。结论:肠润方能够显著改善功能性便秘临床症状,其作用机制可能与上调C-Kit、SCF以及HCN通道表达水平,维持Cajal间质细胞(Interstitial Cells of Cajal,ICC)胃肠慢波起搏与传导功能,加强结肠平滑肌收缩,促进结肠运动有关。

超极化激活环核苷酸门控阳离子通道4在大鼠心肌成纤维细胞和心肌细胞中的表达

目的:探讨超极化激活环核苷酸门控阳离子通道4(HCN4)在大鼠体内和体外心肌成纤维细胞、心肌细胞中的表达分布及其增龄变化。方法:SD大鼠分为新生组(1~3 d),成年组(17个月)和老年组(22个月),每组8只,其中4只用于冰冻切片,另4只用于PCR;取新生SD大鼠心,酶消化法分离培养原代心肌成纤维细胞和原代心肌细胞。用免疫荧光、免疫组织化学检测原代心肌成纤维细胞和原代心肌细胞HCN4的表达;免疫印迹、实时荧光定量PCR检测原代心肌成纤维细胞HCN4的表达,用实时荧光定量PCR检测不同月龄大鼠心肌组织HCN4的表达。结果:体外细胞培养显示,成纤维细胞和原代心肌细胞中均表达HCN4。组织切片显示,新生、成年和老年大鼠心肌成纤维细胞和部分心肌细胞表达HCN4。P1~P4代成纤维细胞的免疫印迹和实时荧光定量PCR结果显示HCN4随着成纤维细胞代次增加,表达量逐渐降低;不同月龄大鼠左心室的实时荧光定量PCR结果显示随着大鼠月龄增加,HCN4的表达量逐渐降低,其结果与培养的细胞表达一致。结论:HCN4在心肌成纤维细胞和部分心肌细胞中表达。随增龄变化,心肌细胞和成纤维细胞HCN4的表达量逐渐下降。

Hyperpolarization-activated cyclic nucleotide-gated 2 contributes to electroacupuncture analgesia on lumbar disc herniation-induced radicular pain through activation of microglia in spinal dorsal horn

OBJECTIVE:To explore the mechanisms of dorsal root ganglia and spinal microglia cascade cross in electroacupuncture(EA)analgesia in the treatment of lumbar disc herniation.METHODS:A rat model of lumbar disc herniation(LDH)was established,EA was administered at Huantiao(GB30)acupoint 30 min once a day,for 3 d.Before and after modeling,and after EA,mechanical allodynia thresholds were detected.Hyperpolarization-activated cyclic nucleotide-gated 2(HCN2)in dorsal root ganglia was detected by quantitative polymerase chain reaction(qPCR)and Western blot.C-X3-C motif chemokine ligand 1(CX3CL1)and activity of microglia in spinal cord was observed separately via qPCR and immunofluorescence staining.RESULTS:The mechanical allodynia threshold of the right planta of model rats was significantly reduced(P<0.01),EA increased the mechanical pain threshold of rats(P<0.01),and decreased HCN2 mRNA,and protein expression,reduced the expression of CX3CL1 and the activation of microglia.ZD7288(a blocker of HCN channel)reduced the analgesic effect of EA from 1.83±0.84 to 0.74±0.20(P<0.05),and the expression of CX3CL1 in the spinal cord decreased from 0.52±0.11 to 0.15±0.05(P<0.01).CONCLUSION:EA analgesia on the radicular pain of LDH is definite.EA reduced the expression of HCN2 channel in the dorsal root ganglion,thereby decreasing the noxious stimulation entered to microglia in spinal dorsal horn.Our work supports EA is an effective treatment for radicular pain of LDH.

XIRP2和HCN4在心肌脂肪浸润致猝死者心脏传导系统表达研究

目的:研究心肌脂肪浸润致猝死的法医病理学特征及传导组织中含心肌动蛋白重复序列蛋白2(XIRP2)和超极化激活环核苷酸门控阳离子通道4(HCN4)蛋白含量表达变化情况,探讨XIRP2和HCN4蛋白作为心肌脂肪浸润致猝死的潜在分子标记物的可能性。方法:收集某司法鉴定中心2015~2022年死因为心肌脂肪浸润致猝死者8例为猝死组,选取死因为外伤致死者10例为对照组进行统计、归纳和分析。通过大体检查、HE染色和Masson三色染色观察组织病理学改变,免疫组织化学染色(IHC)观察XIRP2和HCN4蛋白表达情况。结果:组织病理学检查示心肌脂肪浸润主要侵犯右心室、窦房结、房室结;IHC结果示猝死组较对照组的XIRP2和HCN4蛋白在窦房结、房室结表达升高,在左右束支表达降低(P<0.05)。心肌脂肪浸润猝死者窦房结和房室结XIRP2和HCN4蛋白表达水平高于左右束支(P<0.05),表达趋势与对照组相反。心肌脂肪浸润猝死者HCN4、XIRP2蛋白表达在窦房结与房室结之间差异有统计学意义。传导系统XIRP2与HCN4蛋白表达相关(P<0.05)。结论:心肌脂肪浸润主要表现为右心室合并窦房结、房室结内大量脂肪浸润,可能通过影响传导系统离子通道蛋白表达致心律失常引起猝死,XIRP2和HCN4蛋白在传导系统的表达差异可为该类案件的法医学鉴定提供参考。

大鼠不稳定膀胱中ICCs细胞中HCN蛋白表达的变化

目的研究HCN离子通道(hyperpolarization-activated cyclic nucleotide-gated cation channel,HCN)蛋白在膀胱Cajal间质细胞(interstitial cells of Cajal,ICCs)中的表达及在不稳定膀胱ICCs细胞中表达的变化,探讨ICCs细胞兴奋性变化与逼尿肌不稳定(detrusor instability,DI)的关系。方法①将30只大鼠随机分为正常对照(10例),逼尿肌稳定组(DS,n=12),逼尿肌不稳定组(DI,n=8):大鼠尿道近端结扎,建立膀胱出口梗阻(bladder outlet obstruction,BOO)模型。②对各组进行HCN和c-kit免疫荧光双标,确定HCN蛋白是否在ICCs细胞上存在及HCN表达的变化。③以Western blot法检测HCN蛋白表达量的变化。结果①免疫荧光双标显示,在c-kit阳性的ICCs细胞膜上,有HCN抗原的表达,c-kit阴性细胞未见HCN表达;与正常组相比,DI组、DS组HCN蛋白表达增加。②Western blot检测显示,与正常组相比,DI组、DS组的HCN表达增高,DI组增高显著(P<0.01)。结论大鼠膀胱ICCs细胞可表达HCN通道蛋白,且DI膀胱ICCs细胞HCN通道明显增多,由此导致的ICCs细胞兴奋性增高可能在DI发生中起重要作用。

心功能不同的风湿性心脏瓣膜病心房颤动患者超极化激活环核苷酸门控阳离子通道4的表达水平研究

目的：探讨超极化激活环核苷酸门控阳离子通道4（HCN4）基因在风湿性心脏瓣膜病心房颤动伴心力衰竭患者与心功能正常的风湿性心脏瓣膜病心房颤动患者心房肌中的表达水平。方法选取2008—2011年新疆医科大学第一附属医院因心脏瓣膜病需接受开胸换瓣手术患者45例，根据其心功能分级，将美国纽约心脏病协会（ NYHA）分级为Ⅱ~Ⅲ级者27例作为试验组，将心功能正常者18例作为对照组。采用实时荧光定量PCR（ Real-time PCR）和蛋白质免疫印迹法（ Western-blotting）分别测定两组患者HCN4 mRNA及蛋白表达水平。结果对照组HCN4 mRNA表达水平为（1.12±0.69），低于试验组的（4.91±1.51）（t =0.021，P 〈0.05）。对照组 HCN4蛋白表达水平为（1.02±0.15），低于试验组的（2.01±0.92）（t=0.031，P〈0.001）。结论 HCN4在心力衰竭与心功能正常的风湿性心脏瓣膜病心房颤动患者的心房肌中均有表达，且随着心功能不全的加重，HCN4表达水平上调。

蛛网膜下腔注射ZD7288对神经病理痛大鼠机械性痛敏的影响

目的:观察蛛网膜下腔注射(i.t.)ZD7288对模型大鼠痛行为的影响。方法:采用L5/L6脊神经紧结扎的方法制备大鼠神经病理痛模型,通过蛛网膜下腔插管给药。结果:ZD7288 30 g明显升高50%缩足阈值(P<0.05),表现出明显的镇痛作用,而更低剂量的15μg和7.5μg的镇痛效果不明显。在神经损伤后的5 d和14 d给予ZD7288,其镇痛效果明显好于损伤后第28 d给药(P<0.05)。这三个剂量的ZD7288并不影响大鼠的运动功能。结论:ZD7288对脊神经结扎大鼠的机械性痛敏有缓解作用,这种作用在结扎后早期比晚期更强。从行为药理学的角度证明脊髓背角超极化激活环核苷酸门控阳离子通道(HCN)可能参与了神经病理痛的形成。

ZD7288抑制大鼠穿通纤维—海马CA3区通路的突触传递(英文)

目的观察HCN通道特异性阻滞剂ZD7288对大鼠海马CA3区突触传递的影响。方法应用在体电生理细胞外记录技术记录大鼠海马CA3区场电位,用HPLC荧光检测技术测定海马组织氨基酸含量,观察CA3区局部微量给予ZD7288和CsCl后对低频(0·5 Hz)刺激穿通通路(perforant pathway,PP)诱发的海马CA3区群峰电位(population spike,PS)幅度及海马组织氨基酸含量的影响。结果海马CA3区分别注射ZD7288(20,100和200nmol)和CsCl(1,5和10μmol)可引起PS幅度剂量依赖性下降;药物效应于给药后5 min开始,作用维持时间90 min以上。给予ZD7288(100 nmol)大鼠海马组织谷氨酸、天冬氨酸、甘氨酸及γ-氨基丁酸含量显著降低,与生理盐水对照组比较,差异有显著性意义(P<0·01或P<0·05)。结论 ZD7288可显著抑制大鼠穿通纤维—海马CA3区突触传递,并可降低海马组织氨基酸含量。

益阳活血方对损伤兔窦房结组织HCN4蛋白表达的影响

目的通过研究中药复方益阳活血方对损伤的兔窦房结组织超级化激活环核苷酸门控阳离子通道4(Hyperpolarization-activated cyclic nucletide-gated cation channel 4,HCN4)表达的影响,探讨其治疗病态窦房结综合征的可能机制。方法取60只大耳白兔(体质量2.3～2.8 kg),随机分为正常组,模型组,阿托品组,益阳活血方高、中、低剂量组,每组10只,除正常组不造模外,余各组采用甲醛加压注射渗透法建立兔窦房结组织损伤模型,模型稳定后开始给药,疗程(7 d)结束后取材,免疫组织化学方法观察窦房结HCN4表达的变化。结果免疫组化染色示窦房结HCN4表达主要位于结中央区,向周边逐渐减少。与正常组相比,造模后各组家兔窦房结组织HCN4蛋白表达均有不同程度降低(P<0.05或P<0.01)。与模型组比较,各用药组IOD值均有不同程度升高,差异有统计学意义(P<0.01),且高剂量组明显优于中、低剂量组及阿托品组(P<0.01),中、低剂量组与阿托品组比较,差异无统计学意义(P>0.05)。结论益阳活血方可提高损伤兔窦房结组织HCN4蛋白的表达,可能是治疗病态窦房结综合征的机制之一。

急性疼痛早期治疗的必要性

神经病理痛是指由中枢或外周神经系统损伤或疾病引起的疼痛综合征。近年来的研究证明,外周神经损伤后早期的异位放电不仅是早期急性痛的重要原因,而且这些异位放电不断轰击脊髓背角等中枢部位,诱发中枢敏化,成为神经病理痛后期维持的重要机制。早期阻断异位放电,可以阻断神经病理痛急性期向慢性期的转变,有效阻止神经病理痛的发生。因此,临床医生应尽早治疗神经损伤后的急性痛,越早治疗,病人越早康复,无需忍受慢性神经病理痛的折磨。

起搏通道基因亚型HCN4重组腺病毒载体的构建及通道电流检测

目的旨在构建超极化激活环核苷酸门控阳离子通道基因亚型4(HCN4)重组腺病毒载体并鉴定其离子通道功能。方法全长人HCN4基因酶切后亚克隆到腺病毒穿梭载体pAdTrack-CMV,形成含目的基因和绿色荧光蛋白基因的穿梭载体。穿梭载体和病毒骨架载体pAdEasy-1经电穿孔法在BJ5183大肠杆菌中同源重组,重组后的腺病毒载体经PacⅠ酶切线性化后,利用脂质体介导转染到HEK293细胞进行病毒的包装和扩增。用多聚酶链反应(PCR)方法对病毒上清中的HCN4进行检测,并将重组腺病毒感染COS-7细胞,用免疫荧光染色检测HCN4蛋白质的表达,利用全细胞膜片钳方法测定转HCN4基因细胞的电生理功能。结果通过酶切、测序、PCR等证实HCN4通道基因重组腺病毒载体构建正确,免疫荧光检测证实转染AdHCN4的COS-7细胞中HCN4通道基因的表达,膜片钳实验也在转基因细胞中检测到超极化激活的非选择性内向阳离子电流(If)。结论HCN4通道基因重组腺病毒载体的构建成功为进一步研究该离子通道的电生理功能及在心律失常疾病基因治疗方面的潜在应用价值奠定了基础。

Mink相关肽1对超极化激活的环核苷酸门控的阳离子通道4电生理特性的调节

目的:评价Mink相关肽1(KCNE2或MiRP1)对异源转染的中国仓鼠卵巢(CHO)细胞上的超极化激活的环核苷酸门控的阳离子通道(HCN)4电生理特性的影响。方法:将成功转染HCN4的CHO细胞(n=12)及共转染HCN4+KCNE2的CHO细胞(n=13),即将KCNE2质粒脱氧核糖核酸(DNA)单独转染或和HCN4质粒DNA共转染CHO-K1细胞,用标准微电极全细胞膜片钳记录细胞膜上的HCN4电流。结果:KCNE2对HCN4电流大小的影响:无论是在单独转染HCN4,还是HCN4和KCNE2共转染的CHO细胞中,均能检测到电流的表达。HCN4和KCNE2共转染的细胞中所检测到的电流密度,显著大于单独的HCN4转染细胞中的电流密度,差异有统计学意义(P<0.01)。KCNE2对HCN4激活动力学的影响:KCNE2和HCN4共转染后,其代表通道激活动力学的指标:激活时间常数(Tau)较单独转染HCN4时明显减小,差异有统计学意义(P<0.05)。KCNE2对HCN4激活的电压依赖性的影响:从稳态激活曲线中发现,无论是通道激活50时的脉冲电压(V1/2)还是倾斜因子(S),在HCN4与HCN4+KCNE2两组之间差异无统计学意义(P>0.05)。结论:KCNE2对HCN4通道有明显的调控作用。