血管紧张素Ⅱ对缺血心肌细胞钾离子通道的作用

实验用胶原酶酶解法急性分离豚鼠心室肌细胞,利用全细胞膜片钳的方法记录心室肌细胞的延迟整流钾电流(Ik）、内向整流钾电流（Ik1）和ATP敏感钾电流（IKATP）。采用低氧、无糖、高乳酸和酸中毒综合方式模拟缺血灌流,造成细胞的模拟缺血,并在缺血的基础上继续用含100nmol/L AngⅡ灌流细胞,观察Ang Ⅱ对模拟缺血心室肌细胞钾离子通道的影响。实验结果显示：（1）模拟缺血时,Ik明显减小;Ang Ⅱ能进一步抑制Ik。（2）模拟缺血条件下,Ik1受到抑制,并且以内向电流的抑制为主;Ang Ⅱ可加强对Ik1内向电流的抑制,而对部分外向电流则有增加的作用。（3）模拟缺血使IKATP外向电流略有增加;Ang Ⅱ则明显加强IKATP外向电流,此效应能被优降糖所阻断。     

河蟹眼柄神经分泌细胞离子通道的膜片钳研究

采用全细胞膜片钳技术对培养12－24小时不同形态河蟹眼柄视节端髓X器官（MTXO）神经分泌细胞离子通道进行了研究。结果表明,河蟹眼柄MTXO中分布的A、B、C三种类型神经分泌细胞均可记录到由向电流和外向电流组成的正常全细胞电流。内向电流由高电压激活钙离子通道电流（Lca)和对TTX敏感钠离子通道电流（INa）组成。ICa的激活电压为－30mV,在0－ 20mV电压下达到峰值,在－40mV和－70mV保持电压下记录的ICa激活阈值、初始峰值及I－V曲线无明显差别。外向电流明显,幅值较大,包括对4－AP敏感的快速激活、快速失活钾离子通道电流（IA）和对TEA敏感的缓慢激活、缓慢失活钾离子通道电流（IK）。正常蟹种、二龄成蟹和早熟蟹种MTXO神经分泌细胞均表达电压门控钠、钾、钙离子通道,通道电流和电压特征无明显区别.     

应激对大鼠心室肌细胞L-型钙离子通道的影响

目的 :研究应激对心室肌细胞L 型钙离子通道电流及激活、失活门控动力学特性的影响。方法 :制备离体心室肌细胞并用去甲肾上腺素 (NE)诱导建立应激心肌细胞模型 ,应用流式细胞术 (FCM )和Fura 2荧光分光光度法测定应激心室肌细胞的凋亡率和心肌细胞内游离钙浓度变化。利用膜片钳全细胞钳制记录法记录应激心室肌细胞L 型钙离子通道电流I V曲线图及稳态激活、失活曲线图。结果 :FCM检测发现 1 0 - 4mol/L的NE模拟应激可导致心室肌细胞凋亡率明显上升 ,对照组 :0 .36 % ,应激组 :2 .1 7% (P <0 .0 1 )。 1 0 - 4mol/L的NE干预使Ica L峰电流幅值显著性上升 ,激活曲线分析发现应激后曲线明显左移 ,半数最大激活膜电位 (V1 /2 )为 (- 1 4 .59± 0 .2 4 )mV ,较之于对照组 :(- 0 .69± 0 .36)mV ,差异显著 ,而稳态失活曲线特性未发生有意义的改变。实验组心肌细胞内游离钙浓度较对照组升高 1 6 .7%。结论 :应激可导致L 型钙离子通道电流增加 ,通道更易于激活 ,通道的这种异常活动可能导致钙超载 ,从而引起心肌细胞凋亡 ,介导应激性心肌损伤的发生     

不同浓度葡萄糖对大鼠胰岛β细胞L-型钙通道的影响

采用全细胞膜片钳技术观察不同浓度葡萄糖对新生Wister大鼠胰岛β细胞膜上电压依赖性L-型钙离子通道门控特性的影响,即分别用2.8、5.5、16.7和22.2 mmol/L的葡萄糖刺激单个贴壁胰岛β细胞,以Ba²⁺作为载流子,分析比较葡萄糖对L-型钙通道电流的影响。结果显示：在低糖（2.8 mmol/L）情况下,大鼠胰岛β细胞电压依赖性L-型钙离子通道电流静息膜电位约为－70 mV,钙离子内流不明显,且无明显的时间依赖性关系。在葡萄糖浓度为5.5 mmol/L的条件下,大鼠胰岛β细胞电压依赖性L-型钙离子通道电流在－40 mV激活, +20 mV左右达峰值;高糖（16.7 mmol/L）作用胰岛β细胞后,电压依赖性L-型钙离子通道电流约－40 mV激活,＋10 mV左右达峰值,即峰值电位向负方向移动约10 mV;葡萄糖浓度达22.2 mmol/L时,电活动呈持续性去极化,峰值电位增加不明显,提示葡萄糖降低胰岛β细胞电压依赖性L-型钙通道电流的激活电位阈值,促进其开放,钙电流峰值电位增加,随着高糖作用时间的延长,胰岛β细胞容积变大,细胞膜破坏。提示高浓度葡萄糖在一定范围内可以刺激胰岛素的分泌,但浓度过高则可抑制胰岛素的分泌,通过观察葡萄糖刺激的胰岛β细胞胰岛素第一时相分泌的变化,在一定程度上对高糖毒性作用的可能提供了证据。     

三羟异黄酮对豚鼠心室肌细胞L-型钙通道电流的影响

本实验用全细胞膜片钳技术观察三羟异黄酮(genistein,GST)对豚鼠心室肌细胞L-钙通道电流(ICa、L)的影响。结果如下:(1)GST(10、50、100 μmol/L)可浓度依赖性地降低ICa,L(n=6,P<0.01)。GST的非活性结构类似物daidzein(100μmol/L),在同一浓度范围对ICa,L没有影响(n=5,P>0.05)。(2)GST使I-V曲线上移,但对ICa,L的电压依赖特征和最大激活电压无明显影响。(3)GST对ICa,L的激活动力学特性也无影响,但可使钙电流稳态失活曲线左移。V0.5从对照的-28.6±0.6 mV变为-32.8±1.1mV,κ值从对照的5.8±0.5 mV升至6.5±0.9 mV(n=6,P<0.05)。(4)GST明显使复活曲线右移,从而使ICa,L从失活状态下恢复明显减慢(n=7,P<0.01)。(5)酪氨酸磷酸酶抑制剂正钒酸钠(1 mmol/L)显著对抗GST引起的ICa,L抑制效应(n=6,P<0.01)。根据以上结果得出的结论是:GST抑制ICa,L加速钙通道失活和钙通道在失活状态下恢复减慢;GST对ICa,L的这种抑制作用与蛋白酪氨酸激酶(PTK)抑制有关。     

银杏苦内酯B对豚鼠模拟缺血心室肌细胞L-型钙电流及胞内游离钙的影响

应用全细胞膜片钳及激光共聚焦技术 ,研究银杏苦内酯B(ginkgolideB ,GB)对豚鼠心室肌细胞L 型钙电流及胞内游离钙的作用 ,并探讨GB心肌保护作用的机制。实验结果显示 ,在指令电压为 0mV时 ,GB对生理状态下豚鼠心室肌细胞L 型钙电流无明显作用。在模拟缺血状态下 ,L 型钙峰值电流减小 3 7 71% ,但加入 1μmol/LGB后 ,可逆转缺血引起的L 型钙电流的降低 ,与缺血对照组比较 ,有显著性差异 (P <0 0 5 )。 1μmol/LGB能使由于模拟缺血而上移的L 型钙电流 电压曲线回复正常。在生理状态下 ,0 1、1、10mol/LGB分别使心肌细胞内游离钙降低 10 5 8%(n =12 )、17 2 7% (n =12 )、16 3 5 % (n =10 ) ,与对照组相比有非常显著性差异。模拟缺血液灌流 12min时 ,细胞内游离钙浓度增加 2 0 15 % ,在模拟缺血液中分别加入 1μmol/Lnifedipine或 5mmol/LNiCl2 ,结果显示 :模拟缺血液灌流 12min ,与正常对照组相比细胞内钙分别增加 18 18% (P >0 0 5 )与 11% (P <0 0 5 )。在模拟缺血液中加入1mol/LGB灌流 12min时细胞内钙仅增加 9 60 % (n =12 ,P <0 0 0 1) ,与缺血对照组相比有显著性差异 (P <0 0 5 )。结果表明 ,GB可逆转模拟缺血造成L 型钙电流的降低 ,同时可部分减轻由于缺血所造成的细胞内钙的超载     

腺苷抗豚鼠室性心律失常的电生理研究

实验用全细胞膜片钳技术在单个豚鼠心室肌细胞上研究了腺苷 (Ado)对正常及异丙肾上腺素 (Iso)致豚鼠心室肌细胞动作电位、迟后除极 (DAD)、L 型钙电流 (ICa.L)和短暂内向电流 (Iti)的作用。结果表明 :(1)Ado在2 0～ 10 0 μmol/L时对豚鼠心室肌细胞动作电位和ICa .L无明显直接作用 ,但却可明显降低Iso所致的动作电位时程(APD)延长和ICa .L峰值增大 ,Iso (10nmol/L)使细胞APD50 从 3 40± 2 1ms延长到 486± 2 8ms (P <0 0 1) ,APD90从 3 61± 17ms延长至 5 0 1± 2 9ms (P <0 0 1) ;ICa .L峰值从 - 6 5 3± 1 4pA/pF增大到 - 18 2 8± 2 4pA/pF (P <0 0 1) ,电流电压曲线明显左移和下移 ;Ado (5 0 μmol/L)使APD50 和APD90 降至 40 3± 19ms和 419± 2 6ms ,但并不影响动作电位其它参数 ,使ICa.L峰值降低至 - 10 2± 1 5pA/pF (P <0 0 1)。 (2 )Iso (3 0nmol/L)可诱发心室肌细胞产生DADs,其发生率为 10 0 % ;Ado (5 0 μmol/L)可完全抑制Iso引发DADs;细胞经 - 40～ +2 0mV、时程 2s的除极电压 ,Iso (3 0nmol/L)诱导出Iti,其发生率为 10 0 % ;Ado (5 0 μmol/L)可明显抑制Iso致Iti的发生 ,其发生率降为 14 3 %。研究结果提示 ,Ado对豚鼠心室肌细胞动作电位和ICa.L无明显直接作用 ,但却可显著降低Is     

L型钙流和反向钠-钙交换在豚鼠心室肌细胞兴奋-收缩偶联中的作用

目的 :比较和探讨L型钙流 [ICa(L) ]和反向钠—钙交换 (NCX)在触发豚鼠心室肌细胞兴奋—收缩偶联中的作用。方法 :以分离的豚鼠单个心室肌细胞为对象 ,采用膜片钳和单细胞收缩测量技术 ,给予 35℃的各种含药物细胞外液快速灌流 ,同时记录ICa(L) 和细胞收缩。结果 :①在 +10mV的钳制电压 ,使用硝苯地平 (Nif) 10～ 10 0 μmol/L和Nif 30 μmol/L +Cd2 +30 μmol/L ,阻滞ICa(L) 越多 ,细胞收缩被阻滞得越多 ,呈线性相关。②在 +5 0mV的钳制电压 ,Nif 10 0 μmol/L以及Nif 30 μmol/L +Cd2 +3 0 μmol/L仅能抑制部分细胞收缩 ,但剩余的细胞收缩起始时间明显延迟 ,且能被 5mmol/LNi2 +所阻滞。③在 +10 0mV的钳制电压 ,细胞收缩起始时间较 +5 0mV明显延迟 ,且不能被Nif 10 0 μmol/L和Nif 30 μmol/L +Cd2 +30 μmol/L所阻滞。结论 :在生理条件下 ,ICa(L) 是触发心室肌细胞兴奋—收缩偶联的主要途径 ,但在膜电位 >+5 0mV时 ,反向NCX也参与兴奋—收缩偶联。     

溶血磷脂酰胆碱对缺血条件下羊浦肯野纤维If电流的影响

本文用双微电极电压箝制术观察“缺血”及毒性代谢产物溶血磷脂酸胆碱（LPC）对绵羊心室浦肯野纤维起搏离子流If的影响。用模拟缺血溶液灌流15,30和60min后,在一60mV～120mV之间的各不同指令电位水平If离子流幅值均降低（n=5,P＜0．05）,激活达稳态时间及半激活时间延长（n=5,P＜0．05）,稳态激活曲线向超极化方向移位。在正常台氏液中加入2×10-5mol/LIPC,灌流后,各个膜电位水平的浦氏纤维起搏离子流If的幅值显著降低（n=10,P＜0.05）,稳态激活曲线向超极化方向移位,但If激活达稳态时间及半激活时间均无明显改变。在模拟缺血溶液灌流30min基础上,再加2×10－5mol／LLPC灌流,15min后测得If幅值进一步减小（n=10,P＜0．05）,加剧了“缺血”对If离子流的抑制作用。上述结果表明：缺血代谢产物溶血磷脂酸胆碱对心室的正常自律活动具有抑制作用,在模拟缺血条件下,它能使已受抑制的自律活动抑制进一步加深。因此它的存在不会异常增强心室自律性活动而发生快速性室性心律失常。     

银杏酮酯对模拟缺血豚鼠心室肌细胞I_K的影响

目的:观察银杏酮酯(GBE50)对模拟缺血豚鼠心室肌细胞延迟整流钾电流(IK)的影响,探讨GBE50抗心肌缺血的机制。方法:采用标准膜片钳全细胞记录方法观察GBE50对正常及模拟缺血豚鼠心室肌细胞IK的影响。结果:在细胞外液中分别加入25,50,100mg/L GBE50灌流,仅100mg/L GBE50对正常心室肌细胞IK有影响(P0.05),使IK电流密度减小,I-V曲线下移;模拟缺血液灌流20minIK减小,I-V曲线下移,在模拟缺血液中分别加入25,50,100mg/L GBE50后,仅25mg/L无效,50,100mg/LGBE50灌流20min后IK稍减小,I-V曲线稍有下移,与缺血前相比无显著性差异(P0.05)。结论:100mg/LGBE50可减少正常豚鼠心室肌细胞IK;在模拟缺血条件下豚鼠心室肌细胞IK受到明显的抑制,GBE50可明显逆转缺血所致IK的抑制效应,这可能是GBE50产生心肌保护作用的重要机制之一。     

Regulation of L-type inward calcium channel activity by captopril and angiotensin II via the phosphatidyl inositol 3-kinase pathway in cardiomyocytes from volume-overload hypertrophied rat hearts

Heart failure can be caused by pro-hypertrophic humoral factors such as angiotensin II (Ang II), which regulates protein kinase activities. The intermingled responses of these kinases lead to the early compensated cardiac hypertrophy, but later to the uncompensated phase of heart failure. We have shown that although beneficial, cardiac hypertrophy is associated with modifications in ion channels that are mainly mediated through mitogen-activated protein (MAP) kinase and phosphatidylinositol 3-kinase (PI3K) activation. This study evaluates the control of L-type Ca(2+) current (I(Ca,L)) by the Ang II/PI3K pathway in hypertrophied ventricular myocytes from volume-overload rats using the perforated patch-clamp technique. To assess activation of the I(Ca,L) in cardiomyocytes, voltages of 350 ms in 10 mV increments from a holding potential of -85 mV were applied to cardiocytes, with a pre-pulse to -45 mV for 300 ms. Volume overload-induced hypertrophy reduces I(Ca,L), whereas addition of Ang II alleviates the hypertrophic-induced decrease in a PI3K-dependent manner. Acute administration of Ang II (10(-6) mol/L) to normal adult cardiomyocytes had no effect; however, captopril reduced their basal I(Ca,L). In parallel, captopril regressed the hypertrophy and inverted the Ang II effect on I(Ca,L) seemingly through a PI3K upstream effector. Thus, it seems that regression of cardiac hypertrophy by captopril improved I(Ca,L) partly through PI3K.     

Short-term simulated weightlessness enhances response of L-type calcium channel to angiotensin II in cerebral vascular smooth muscle cells in rats

Some studies suggest that the calcium channels and rennin-angiotensin system (RAS) play pivotal roles in the region-specific vascular adaptation due to simulated weightlessness. This study was designed to clarify if angiotensin II (Ang II) was involved in the adaptational change of the L-type calcium channel (Ca(L)) in the cerebral arterial vascular smooth muscle cells (VSMCs) under simulated weightlessness. Tail suspension (SUS) for 3 d was used to simulate immediate early cardiovascular changes to weightlessness. Then VSMCs in cerebral basilar artery were enzymatically isolated using papain, and Ca(L) current (barium instead of calcium as current carrier) in VSMCs was measured by whole-cell patch-clamp techniques. The results showed that 3-day simulated weightlessness significantly increased current density of Ca(L). However, I-V relationships of normalized peak current densities and steady-state activation curves of Ca(L) were not affected by simulated weightlessness. Although Ang II significantly increased current densities of Ca(L) in both SUS and control rats, the increase of Ca(L) current density in SUS rats was much more than that in control rats. These results suggest that 3-day simulated weightlessness induces the adaptational change of Ca(L) in cerebral VSMCs including increased response to Ang II, indicating that Ang II may play an important role in the adaptational change of cerebral arteries under microgravity.     

Inhibition by nickel of the L-type Ca channel in guinea pig ventricular myocytes and effect of internal cAMP

The characteristics of nickel (Ni) block of L-type Ca current (I(Ca, L)) were studied in whole cell patch-clamped guinea pig cardiac myocytes at 37 degrees C in the absence and presence of 100 microM cAMP in the pipette solution. Ni block of peak I(Ca,L) had a dissociation constant (K(d)) of 0.33 +/- 0.03 mM in the absence of cAMP, whereas in the presence of cAMP, the K(d) was 0.53 +/- 0.05 mM (P = 0.006). Ni blocked Ca entry via Ca channels (measured as I(Ca, L) integral over 50 ms) with similar kinetics (K(d) of 0.35 +/- 0.03 mM in cAMP-free solution and 0.30 +/- 0.02 mM in solution with cAMP, P = not significant). Under both conditions, 5 mM Ni produced a maximal block that was complete for the first pulse after application. Ni block of I(Ca,L) was largely use independent. Ni (0. 5 mM) induced a positive shift (4 to 6 mV) in the activation curve of I(Ca,L). The block of I(Ca,L) by 0.5 mM Ni was independent of prepulse membrane potential (over the range of -120 to -40 mV). Ni (0.5 mM) also induced a significant shift in I(Ca,L) inactivation: by 6 mV negative in cAMP-free solution and by 4 mV positive in cells dialyzed with 100 microM cAMP. These data suggest that, in addition to blocking channel conductance by binding to a site in the channel pore, Ni may bind to a second site that influences the voltage-dependent gating of the L-type Ca channel. They also suggest that Ca channel phosphorylation causes a conformational change that alters some effects of Ni. The results may be relevant to excitation-contraction coupling studies, which have employed internal cAMP dialysis, and where Ni has been used to block I(Ca,L) and Ca entry into cardiac cells.     

Angiotensin II activation of focal adhesion kinase and pp60c-Src in relation to mitogen-activated protein kinases in hepatocytes

We have investigated signaling pathways leading to angiotensin II (Ang II) activation of mitogen-activated protein kinase (MAPK) in hepatocytes. MAPK activation by Ang II was abolished by the Ang II type 1 (AT1) receptor antagonist losartan, but not by the Ang II type 2 (AT2) receptor antagonist PD123319. Ang II (100 nM) induced a rapid phosphorylation of Src (peak approximately 2 min) and focal adhesion kinase (FAK, peak approximately 5 min) followed by a decrease to basal levels in 30 min. An increased association between FAK and Src in response to Ang II was detected after 1 min, which declined to basal levels after 30 min. Treatment with the Src kinase inhibitor PP-1 inhibited FAK phosphorylation. Downregulation of PKC, intracellular Ca2+ chelator BAPTA or inhibitors of PKC, Src kinase, MAPK kinase (MEK), Ca2+/calmodulin dependent protein kinase, phosphatidylinositol 3-kinase all blocked Ang II-induced MAPK phosphorylation. In contrast to other cells, there was no evidence for the role of EGF receptor transactivation in the activation of MAPK by Ang II. However, PDGF receptor phosphorylation is involved in the Ang II stimulated MAPK activation. Furthermore, Src/FAK and Ca/CaM kinase activation serve as potential links between the Ang II receptor and MAPK activation. These studies offer insight into the signaling network upstream of MAPK activation by AT1 receptor in hepatocytes.     

Eplerenone inhibits the intracrine and extracellular actions of angiotensin II on the inward calcium current in the failing heart. On the presence of an intracrine renin angiotensin aldosterone system

The influence of chronic administration of eplerenone on the intracrine as well as on the extracellular action of angiotensin II (Ang II) on L-type inward calcium current was investigated in the failing heart of cardiomyopathic hamsters (TO-2).For this, eplerenone (200 mg/kg/day) was administered orally to 2 month-old cardiomyopathic hamsters for a period of 3 months. Measurements of the peak inward calcium current (I(Ca)) was performed in single cells under voltage clamp using the whole cell configuration. The results indicated that eplerenone suppressed the intracrine action of Ang II (10(-)(8) M) on peak I(Ca) density. Moreover, the intracellular dialysis of the peptide did not change the time course of I(Ca) inactivation in animals treated chronically with eplerenone. The extracellular administration of Ang II (10(-)(8) M) incremented the peak I(Ca) density by only 20+/-8% (n=30) compared with 38+/-4% (n=35) (P<0.05) obtained in age-matched cardiomyopathic hamsters not exposed to eplerenone. Interestingly, the inhibitory of eplerenone (10(-7) M) on the intracrine action of Ang II was also found, in vitro, but required an incubation period of, at least, 24 h. The inhibitory action of eplerenone on the intracellular action of Ang II was partially reversed by exposing the eplerenone-treated cells to aldosterone (10 nM) for a period of 24 h what supports the view that: a) the mineralocorticoid receptor(MR) was involved in the modulation of the intracrine action of the peptide; b) the effect of eplerenone on the intracrine as well as on the extracellular action of Ang II was related ,in part, to a decreased expression of membrane-bound and intracellular AT1 receptors. In conclusion: a) eplerenone inhibits the intracrine action of Ang II on inward calcium current and reduces drastically the effect of extracellular Ang II on I(Ca); b) aldosterone is able to revert the effect of eplerenone; c) the mineralocorticoid receptor is an essential component of the intracrine renin angiotensin aldosterone system.     

ClC-3 deficiency prevents apoptosis induced by angiotensin II in endothelial progenitor cells via inhibition of NADPH oxidase

Endothelial progenitor cells (EPCs) play an important role in postnatal neovascularization and re-endothelialization in response to tissue ischemia and endothelial injury. It is reported that the circulating EPCs number is decreased during hypertension. However, the detailed mechanism is still unclear. Our previous studies have shown that ClC-3 chloride channel is up-regulated with the development of hypertension. This study aims to test whether ClC-3 participates in EPC apoptosis under the condition of increased oxidative stress in angiotensin II (Ang II)-induced hypertension. The results showed that stimulation with 10^?6mol/L Ang II significantly up-regulated the endogenous ClC-3 expression and increased intracellular reactive oxygen species (ROS) generation in EPCs of wild type mice, accompanied by an enhanced NADPH oxidase activity and the expression of gp91^phox (NOX-2), a key catalytic subunit of NADPH oxidase. However, these effects of Ang II were significantly reduced in EPCs of ClC-3^?/? mice. Compared with control, treatment with Ang II induced EPCs apoptosis in wild type mice, concomitantly with declined Bcl-2/Bax ratio, depressed mitochondrial membrane potential and activation of poly(ADP-ribose) polymerase, which was remarkably prevented by both ClC-3 knockout and NADPH oxidase inhibitor apocynin. In addition, the role of ClC-3 deficiency in protecting EPCs against Ang II-induced oxidative stress and apoptosis was further confirmed in Ang II-infused hypertensive mice in vivo. In conclusion, ClC-3 deficiency inhibited Ang II-induced EPC apoptosis via suppressing ROS generation derived from NADPH oxidase.     

小剂量辣椒素对豚鼠心室肌细胞L-型钙电流的影响

应用全细胞膜片钳技术研究低浓度辣椒素(capsaicin,CAP)对单个豚鼠心室肌细胞L-型钙电流的影响及其作用机制.CAP(1～25 nmol/L)可浓度依赖性增加电压依赖性的ICa-L的峰值并下移I-V曲线.CAPl,10,25 nmol/L使ICa-L最大峰值分别由-9.67±0.7pA/pF增至-10.21±0.8pA/pF(P＞0.05),-11.37±0.8pA/pF和-12.84±0.9pA/pF(P＜0.05).CAP25nmol/L可明显使稳态激活曲线左移,激活中点电压(V0.5)由-20.76±2.0mV变至-26.71±3.0mV(P＜0.05),表明低浓度CAP改变了钙通道激活的电压依赖性.CAP25nmol/L对电压依赖性稳态失活曲线和ICa-L从失活状态下复活过程无明显影响.辣椒素受体(VR1)阻断剂钌红(RR,10μmol/L)可阻断低浓度辣椒素的效应.以上结果表明,低浓度辣椒素使钙通道稳态激活曲线左移,增加ICa-L,这一效应可能由VRl介导.