白细胞介素-6对新生大鼠海马神经元电压依赖离子通道和NMDA电流的影响

目的 :研究白细胞介素 6对海马神经元电压依赖离子通道和NMDA电流的影响。方法 :应用全细胞膜片钳技术观察IL 6对电压依赖性钠通道电流 (INa) ,延迟整流性钾通道电流 (IK) ,电压依赖性钙通道电流 (ICa) ,NMDA(N methyl D aspartate)受体通道电流的影响。结果 :5 0ng/mlIL 6作用 2 4h后IK和ICa明显减小 ,Cm明显增大。 5 0 ,5 0 0ng/ml时减小NMDA电流。结论 :IL 6通过作用于电压依赖钾通道 ,钙离子通道及NMDA通道影响神经元功能。     

白细胞介素-6对新生大鼠海马神经元电压依赖离子通道和NMDA电流的影响

目的: 研究白细胞介素-6对海马神经元电压依赖离子通道和NMDA电流的影响.方法: 应用全细胞膜片钳技术观察IL-6对电压依赖性钠通道电流(INa),延迟整流性钾通道电流(IK),电压依赖性钙通道电流(ICa),NMDA(N-methyl-D-aspartate)受体通道电流的影响.结果: 50 ng/ml IL-6作用24 h后IK 和ICa明显减小,Cm明显增大.50,500 ng/ml时减小NMDA电流.结论: IL-6通过作用于电压依赖钾通道,钙离子通道及NMDA通道影响神经元功能.     

自发性高血压大鼠和Wistar大鼠脑动脉平滑肌细胞膜电流的比较

目的:探讨自发性高血压大鼠(SHR)和Wistar大鼠脑动脉(BA)平滑肌细胞膜电流的异同。方法:应用全细胞膜片钳技术研究SHR和Wistar大鼠BA平滑肌细胞在电流密度、电流组成以及自发性瞬时外向K+电流(STOCs)特性的异同。结果:①当指令电压为0、+20、+40和+60mV时,SHR与Wistar大鼠BA平滑肌细胞间电流密度存在统计学差异(P<0.01)。②SHR与Wistar大鼠BA平滑肌细胞膜电流都对1 mmol/L电压依赖的K+通道(Kv)阻断剂4AP和1 mmol/L大电导Ca2+激活K+通道(BKCa)阻断剂TEA敏感。③SHR的STOCs发放频率和电流幅度都远大于Wistar大鼠。1 mmol/LTEA基本完全阻断STOCs通道电流,而4-AP对STOCs没有影响。结论:SHR和Wistar大鼠脑动脉平滑肌细胞的电流密度存在差异,两种平滑肌细胞外向电流都由BKCa和Kv通道组成。SHR大鼠平滑肌细胞更易诱发由BKCa通道介导的STOCs。     

细胞松弛素B和鬼笔环肽对梨花粉管钙离子浓度和尖端钙离子通道的影响

应用激光共聚焦显微镜和全细胞膜片钳技术研究了微丝骨架解聚剂细胞松弛素B(CB)和稳定剂鬼笔环肽(PD)对梨花粉管细胞内钙离子浓度动态变化和尖端质膜上钙离子通道的影响。结果显示:CB处理能促进花粉管内胞质钙离子[Ca2+]i浓度增加,同时还能激活质膜上的钙离子通道;而PD处理对花粉管内[Ca2+]i浓度及钙离子通道几乎没有影响。研究表明,微丝骨架的解聚激活了花粉管质膜上的钙离子通道,使得胞外钙离子大量流入,胞内钙离子浓度升高,从而抑制花粉管生长。     

新鲜分离小鼠胃ICC样细胞的鉴定及其电生理学特性

将免疫荧光及传统全细胞膜片钳技术应用于新鲜分离的小鼠胃Cajal 间质细胞样细胞上,探讨了小鼠胃Cajal 间质细胞样细胞形态和电生理学特性。经胶原酶消化得到的Cajal间质细胞样细胞胞体呈短梭形,且自胞体发出多个较短的毛刺状突起。免疫细胞化学结果表明,Cajal 间质细胞样细胞胞体和突起酪氨酸激酶受体c-kit表达呈阳性。在传统全细胞记录模式、膜电位钳制在-60 mV 的条件下,可以记录到自发、节律性内向电流,即起搏电流。钙调蛋白抑制剂W-7 (50µmol/L）明显增强了起搏电流幅度并引发明显的内向钳制电流。当电极内液中EGTA 的浓度由0.1 mmol/L增加到10 mmol/L时,也明显增强了起搏电流幅度并引发明显的内向钳制电流。实验结果提示,新鲜分离的小鼠胃Cajal 间质细胞样细胞可以产生自发、自律性内向电流,而这种电流对胞内低钙或钙调蛋白抑制剂敏感。这种具有自发性电活动的Cajal 间质细胞样细胞可能就是胃Cajal 间质细胞。     

ATP 调控大鼠胰腺β细胞胰岛素分泌的双重作用

实验以大鼠胰腺β细胞为研究对象,采用荧光测钙和全细胞膜片钳膜电容测量技术,研究 ATP 对胞内钙离子信号和细胞分泌的影响,并初步探讨了其作用机制 . 实验表明：胞外 ATP 刺激通过动员细胞内 thapsigargin 敏感的钙库 Ca2+ 释放,使大鼠胰腺β细胞内的游离钙离子浓度显著升高,细胞外的 ATP 信号对β细胞胰岛素分泌有双向调节作用,其一,主要通过降低去极化引起的钙电流而对β细胞胰岛素分泌产生较弱的抑制作用,其二,细胞在静息状态下, ATP 通过动员胞内钙库的 Ca2+ 释放使胞浆中的钙离子浓度显著增加,触发β细胞强烈分泌胰岛素 . ATP 的这种双向调节可能对胰岛素分泌的精确调控具有重要的生理意义 .     

受体调节钙通道有三种机制

几乎所有的组织都有受体调节的钙通道,它们参与多种细胞功能,第二信使诱导的电压门控性钙通道开放是近年来提出的一种较完善的机制,以解释受体调节的钙电导变化。1,4,5-三磷酸肌醇(InsP_3)作为第二信使,使细胞内贮存的钙释放到胞浆内,使细胞内钙浓度([Ca](?))升高,从而引起钙内流,也就是钙通道开放。这种机制已经在几个系统内得到证实,但是在乳腺细胞中却没有发现这种电压门控性钙通道,而乳腺细胞上肯定存在着受体调节的钙通道。最近 Kuno,Reuter 和 Irvine 分别提出了另外三种机制,解释受体介导的钙内流。     

新鲜分离小鼠胃Cajal间质细胞样细胞的鉴定及其电生理学特性

将免疫荧光及传统全细胞膜片钳技术应用于新鲜分离的小鼠胃Cajal间质细胞样细胞上,探讨了小鼠胃Cajal间质细胞样细胞形态和电生理学特性。经胶原酶消化得到的Cajal间质细胞样细胞胞体呈短梭形,且自胞体发出多个较短的毛刺状突起。免疫细胞化学结果表明,Cajal间质细胞样细胞胞体和突起酪氨酸激酶受体c-kit表达呈阳性。在传统全细胞记录模式、膜电位钳制在-60mV的条件下,可以记录到自发、节律性内向电流,即起搏电流。钙调蛋白抑制剂W-7 （50μmol／L）明显增强了起搏电流幅度并引发明显的内向钳制电流。当电极内液中EGTA的浓度由0．1mmol／L增加到10mmol/L时,也明显增强了起搏电流幅度并引发明显的内向钳制电流。实验结果提示,新鲜分离的小鼠胃Cajal间质细胞样细胞可以产生自发、自律性内向电流,而这种电流对胞内低钙或钙调蛋白抑制剂敏感。这种具有自发性电活动的Cajal间质细胞样细胞可能就是胃Cajal间质细胞。     

高血压病患者肠系膜动脉平滑肌细胞钙激活钾通道研究

目的:研究高血压病患者肠系膜动脉平滑肌细胞钙激活钾通道(KCa)的功能活动。方法:应用膜片钳制技术内面向外式单通道记录方法。结果:①人肠系膜动脉平滑肌细胞KCa开放具有电压依赖性。KCa通道电导在高血压组、正常组分别为191.4pS、197.7pS。胞内侧应用TEA可阻断通道。②增加浴液中Ca2 浓度(从0增至10-8、10-7、5×10-7、10-6mol/L),各组KCa开放概率(Po)均呈浓度依赖性增加,高血压组Po从0.016增至0.023、0.031、0.053、0.094,正常组Po从0.004增至0.023、0.041、0.072、0.184。通道平均开放时间延长,平均关闭时间缩短。③Ca2 浓度为0时,高血压组KCa开放概率明显高于正常组,在其它Ca2 浓度下高血压组KCa开放概率等于或低于正常组。结论:高血压病患者肠系膜动脉平滑肌细胞KCa的Ca2 敏感性较低,可能促进高血压的发生。     

钙池操纵的Ca2+通道对炎症的调控

钙池操纵的Ca2 通道(store-operated Ca2 channels,SOC)广泛存在于细胞膜上,是非兴奋性细胞胞外钙内流的主要通道之一,参与多种生理和病理生理过程。参与炎症和免疫反应的主要细胞多为非兴奋性细胞,SOC对它们的功能维系作用日益为人们所重视。     

Effects of fluoride on the intracellular free Ca<Superscript>2+</Superscript> and Ca<Superscript>2+</Superscript>-ATPase of kidney

In the present study, the effect of fluoride on intracellular free calcium ([Ca2+]i) and Ca2+-ATPase of renal cells were examined. Some paradoxical experimental results about the mechanism of fluoride toxicity were observed. In vivo, 48 Wistar rats were divided into 4 groups, and half of rats were treated with sodium fluoride (NaF) by drinking water (per liter of tap water containing 100 mg F-). Compared with the respective control, the level of [Ca2+]i of the kidney in two fluoride-treated rats obviously increased (p < 0.05); and the activity of Ca2+-ATPase in 100 mg F-/L groups with a standard diet did not significantly increase, and the enzyme activity in 100-mg F-/L group with a low-calcium diet decreased significantly compared to the 100 mg F-/L group with a standard diet (p < 0.05). In vitro, renal tubular cells were cultured and respectively exposed to 1.0, 5.0, 7.5, and 12.5 mg/L fluoride in the culture medium. Results showed the significantly elevated activity of Ca2+-ATPase in the cells exposed to 1.0 and 5.0 mg/L fluoride (p < 0.05), and this enzyme activity indicated inhibitory trend in cells of the 7.5- and 12.5-mg/L fluoride-treated group. To sum up, the effect of fluoride on Ca2+-ATPase is a similar to a dose-effect relationship phenomenon characterized by low-dose stimulation and high-dose inhibition, and the increase of [Ca2+]i probably plays a key role on the mechanism of renal injury in fluorosis.     

Hydrogen sulfide inhibits L-type calcium currents depending upon the protein sulfhydryl state in rat cardiomyocytes

Hydrogen sulfide (H(2)S) is a novel gasotransmitter that inhibits L-type calcium currents (I (Ca, L)). However, the underlying molecular mechanisms are unclear. In particular, the targeting site in the L-type calcium channel where H(2)S functions remains unknown. The study was designed to investigate if the sulfhydryl group could be the possible targeting site in the L-type calcium channel in rat cardiomyocytes. Cardiac function was measured in isolated perfused rat hearts. The L-type calcium currents were recorded by using a whole cell voltage clamp technique on the isolated cardiomyocytes. The L-type calcium channel containing free sulfhydryl groups in H9C2 cells were measured by using Western blot. The results showed that sodium hydrosulfide (NaHS, an H(2)S donor) produced a negative inotropic effect on cardiac function, which could be partly inhibited by the oxidant sulfhydryl modifier diamide (DM). H(2)S donor inhibited the peak amplitude of I( Ca, L) in a concentration-dependent manner. However, dithiothreitol (DTT), a reducing sulfhydryl modifier markedly reversed the H(2)S donor-induced inhibition of I (Ca, L) in cardiomyocytes. In contrast, in the presence of DM, H(2)S donor could not alter cardiac function and L type calcium currents. After the isolated rat heart or the cardiomyocytes were treated with DTT, NaHS could markedly alter cardiac function and L-type calcium currents in cardiomyocytes. Furthermore, NaHS could decrease the functional free sulfhydryl group in the L-type Ca(2+) channel, which could be reversed by thiol reductant, either DTT or reduced glutathione. Therefore, our results suggest that H(2)S might inhibit L-type calcium currents depending on the sulfhydryl group in rat cardiomyocytes.     

Tumor necrosis factor-alpha alters calcium handling and increases arrhythmogenesis of pulmonary vein cardiomyocytes

Inflammation and abnormal calcium homeostasis play important roles in atrial fibrillation. Tumor necrosis factor-alpha (TNFalpha), a proinflammatory cytokine, can induce cardiac arrhythmias. Pulmonary veins (PVs) are critical in initiating paroxysmal atrial fibrillation. This study was designed to investigate whether TNFalpha may change the calcium handling and arrhythmogenic activity of PV cardiomyocytes. We used whole-cell patch clamp and indo-1 fluorimetric ratio technique to investigate the action potentials, ionic currents and intracellular calcium in isolated rabbit single PV cardiomyocytes with and without (control) incubation with TNFalpha (25 ng/ml) for 7-10 h. The expression of sarcoplasmic reticulum ATPase in the control and TNFalpha-treated PV cardiomyocytes was evaluated by confocal micrographs and Western blot. We found that the spontaneous beating rates were similar between the control (n=45) and TNFalpha-treated (n=28) PV cardiomyocytes. Compared with the control PV cardiomyocytes, the TNFalpha-treated PV cardiomyocytes had significantly a larger amplitude of the delayed afterdepolarizations (6.0+/-1.7 vs. 2.6+/-0.8 mV, P<0.05), smaller L-type calcium currents, larger transient inward currents, larger Na(+)-Ca(2+) exchanger currents, a smaller intracellular calcium transient, smaller sarcoplasmic reticulum calcium content, larger diastolic intracellular calcium, a longer decay portion of the calcium transient (Tau), and a decreased sarcoplasmic reticulum ATPase expression. In conclusion, TNFalpha can increase the PV arrhythmogenicity and induce an abnormal calcium homeostasis, thereby causing inflammation-related atrial fibrillation.     

Progesterone and 17 alpha-hydroxyprogesterone. Novel stimulators of calcium influx in human sperm

Progesterone and 17 alpha-hydroxyprogesterone (but not other steroids such as testosterone, corticosterone, beta-estradiol, estrone, dehydroepiandrosterone, 20 alpha-hydroxypregnen-3-one, androstenedione, and pregnenolone) were shown to cause an immediate increase, in free cytosolic calcium ([Ca2+]i) in both capacitated and noncapacitated human sperm, using the fluorescent indicator fura 2. Significant increases in [Ca2+]i were observed with 10 ng/ml progesterone, while maximum effects were seen with 1 microgram/ml progesterone. Two other steroids 11 beta-hydroxyprogesterone and 5 alpha-pregnane-3,20-dione exhibited significant activity to increase [Ca2+]i. This increase in [Ca2+]i elicited by progesterone was entirely due to Ca2+ influx from the extracellular medium since the increase in [Ca2+]i was blocked by the Ca2+ chelator EGTA (2.5 mM) and the Ca2+ channel antagonist La3+ (0.25 mM) when added to the medium containing 2.5 mM Ca2+. Progesterone also stimulated the uptake of Mn2+ into sperm as measured by the quenching of fura 2 fluorescence. Progesterone has been found in human follicular fluid at levels capable of stimulating increases in [Ca2+]i. The similarities in responses induced by human follicular fluid and progesterone an increase in [Ca2+]i, and hence the acrosome reaction, is progesterone and/or 17 alpha-hydroxyprogesterone. Progesterone (1 microgram/ml) did not increase [Ca2+]i in somatic cells such as adipocytes, hepatocytes, Balb/c 3T3 cells, normal rat kidney, or DDT1 MF-2 cells. The effects of these progestins to increase [Ca2+]i, by activating a receptor-operated calcium channel, is the first report of such an activity in sperm. This phenomena possibly opens up a new field of steroid action in the area of sterility, fertility, and contraception at the level of the sperm.     

A simple sensitive radioreceptor assay for calcium antagonist drugs

A radioreceptor assay for calcium channel antagonist drugs described here is based on the ability of these drugs to affect ³H-nitrendipine binding to calcium channels. All the known calcium channel antagonists may be assayed in this manner. The assay can detect 10–100 nM (4 – 40 ng/ml) nimodipine, 10–100 nM (3.5 – 35 ng/ml) nifedipine, 3–30 μM (1.2 – 12 μm/ml) prenylamine, 0.1 – 1.0 μM (49 – 490 ng/ml) verapamil and 3–30 μM (1.2 – 12 μg/ml) diltiazem. These values cover the range of concentrations of calcium channel antagonists that are clinically important. As the radioreceptor assay detects active metabolites as well as the parent drugs, it should prove a useful adjunct in cardiovascular therapy. The method is more reproducible, simpler and less expensive than other methods such as high pressure liquid chromatography.     

The influence of bariatric surgery on calcium homeostasis and biochemical markers of bone turnover in patients with morbid obesity

INTRODUCTION: Obese patients may have abnormal calcium homeostasis because of unbalanced diet and decreased sun exposure. Bariatric surgery itself may lead to disturbances in calcium homeostasis (and in consequence changes in bone mass) or increase preexisting metabolic derangements. The aim of the study was: 1. To assess calcium homeostasis and biochemical markers of bone turnover in patients with morbid obesity. 2. To determine the impact of bariatric surgery on parameters mentioned above. 3. To establish recommendations for supplementation with calcium and vitamin D in morbidly obese patients after bariatric surgery. MATERIAL AND METHODS: Serum calcium, parathormone (PTH), vitamin D (25(OH)D), biochemical markers of bone turnover (beta-CrossLaps as a marker of bone resorption and osteocalcin as a marker of bone formation) and urine calcium as well as fat mass, lean mass and bone mineral content (by DXA) were measured before bariatric surgery of the stomach (VBG or GBP) in 57 morbidly obese patients (48 women, 9 men; mean age 35.9 y). The same procedures were repeated six months after operation in 28 of them (24 women, 4 men). Daily calcium intake was also determined based on food questionnaire. RESULTS: Biochemical findings in the group of patients before bariatric surgery were as follows: serum calcium, beta-CrossLaps and urine calcium were within normal range, PTH concentration was increased to 81.0 pg/ml and 25(OH)D as well as osteocalcin concentration decreased (4.9 ng/ml and 13.6 ng/ml, respectively). Six months after bariatric surgery there was no change in serum and urine calcium, PTH concentration decreased to normal level (46.8 pg/ml), 25(OH)D concentration increased to 6.5 ng/ml (not significant) and still remained below normal range. Markers of bone turnover--both resorption and formation--increased (beta-CrossLaps over normal range to 0.594 ng/ml, osteocalcin to normal range 26.8 ng/ml). Daily calcium intake was below RDA before and after bariatric procedure. CONCLUSIONS: 1. Patients with morbid obesity have secondary hyperparathyroidism and deficiency of vitamin D. 2. Abrupt weight loss after bariatric surgery is accompanied by the regression of secondary hyperparathyroidism, decrease of the deficiency of vitamin D and increase in bone turnover. 3. Supplementation with vitamin D and calcium is recommended for patients with morbid obesity after bariatric surgery.     

External cadmium and internal calcium block of single calcium channels in smooth muscle cells from rabbit mesenteric artery.

The patch clamp technique was used to record unitary currents through single calcium channels from smooth muscle cells of rabbit mesenteric arteries. The effects of external cadmium and cobalt and internal calcium, barium, cadmium, and magnesium on single channel currents were investigated with 80 mM barium as the charge carrier and Bay K 8644 to prolong openings. External cadmium shortened the mean open time of single Ca channels. Cadmium blocking and unblocking rate constants of 16.5 mM-1 ms-1 and 0.6 ms-1, respectively, were determined, corresponding to dissociation constant Kd of 36 microM at -20 mV. These results are very similar to those reported for cardiac muscle Ca channels (Lansman, J. B., P. Hess, and R. W. Tsien. 1986. J. Gen. Physiol. 88:321-347). In contrast, Cd2+ (01-10 mM), when applied to the internal surface of Ca channels in inside-out patches, did not affect the mean open time, mean unitary current, or the variance of the open channel current. Internal calcium induced a flickery block, with a Kd of 5.8 mM. Mean blocking and unblocking rate constants for calcium of 0.56 mM-1 ms-1 and 3.22 ms-1, respectively, were determined. Internal barium (8 mM) reduced the mean unitary current by 36%. We conclude that under our experimental conditions, the Ca channel is not symmetrical with respect to inorganic ion block and that intracellular calcium can modulate Ca channel currents via a low-affinity binding site.     

8-Bromo-cyclic GMP inhibits the calcium channel current in embryonic chick ventricular myocytes

Superfusion with 8-bromo-cyclic GMP or intracellular injection of cyclic GMP inhibits calcium-dependent slow action potentials in embryonic chick or guinea pig ventricular cells, suggesting that cyclic GMP inhibits calcium currents. Recently, cyclic GMP has been shown to reduce cyclic AMP-stimulated calcium currents in voltage-clamped ventricular myocytes. Since earlier results in intact cells had suggested that cyclic GMP might inhibit basal (i.e., unstimulated by cyclic AMP) calcium currents, we directly investigated the effect of 8-bromo-cyclic GMP on basal calcium channel currents (using barium as the charge carrier) in voltage-clamped ventricular myocytes isolated from embryonic chick hearts. Superfusion with 1 mM 8-bromo-cyclic GMP (without prior cyclic AMP elevation) progressively decreased peak calcium channel currents (-68% at 15 min after the onset of drug exposure). In contrast, the currents were unchanged during 15 min superfusion with control solution, or 1 mM 8-bromo-GMP (the noncyclic inactive analog of 8-bromo-cyclic GMP). The present results in voltage-clamped embryonic chick heart cells indicate that cyclic GMP can inhibit basal calcium channel currents, apparently through a cyclic AMP-independent mechanism.     

溴氰菊酯对神经细胞钙通道和 钙库的激活作用

应用膜片钳全细胞记录方式和显微荧光测钙技术,以MN9D神经细胞为材料研究了溴氰菊酯的作用机理。低浓度(10^-9 mol/L～10^-7 mol/L)溴氰菊酯就能使神经细胞Ca²⁺电流显著增加。10^-9 mol/L,1 min时电流增加平均值为20.64%,5 min时为15.48%,表明溴氰菊酯能激活高电位激活钙通道(L型和N型),促使Ca²⁺内流,显微荧光测定细胞内自由钙离子浓度（［Ca²⁺］_I）发现,在含Ca²⁺和无Ca²⁺的胞外液中,溴氰菊酯均能使胞内自由钙离子数量增加,表明它能刺激胞内钙库释放Ca²⁺。［Ca²⁺］_I升高对细胞功能影响很大。     

Endotoxin modulates the electrophysiological characteristics of human embryonic stem cell-differentiated cardiomyocytes

Gram-negative bacteria-induced infections result in fever, arrhythmia, and even death. Lipopolysaccharide (LPS), a constituent of bacteria, leads to an inflammatory response under sepsis and increase arrhythmogenesis. This study analyzed the effects on human embryonic stem cell-differentiated cardiomyocytes (HIPSC-CMs) exposed to LPS. A whole cell patch clamp was used to record the action potential (AP) and ionic currents with or without different doses of LPS in HIPSC-CMs. Compared with the control, a different dose (0.04, 0.2, 1, and 5 µg/ml) of LPS-treated HIPSC-CMs resulted in a longer AP duration. The IC50 of sodium channel current was 1.254 µg/ml, L-type calcium channel current was 5 µg/ml, and I_k channel currents were 1.254 µg/ml. LPS-treated HIPSC-CMs showed a lower sodium channel current, L-type calcium channel current, and I_k channel currents. Furthermore, the expressions of Nav1.5 were decreased, and L-Ca, Kv11.1, and Kv7.1 were increased in LPS-treated HIPSC-CMs. LPS-induced arrhythmogenesis was related to the electrophysiological characteristics of sodium channel current, L-type calcium channel current, and I_k channel currents. These results suggest a potential mechanism of cardiomyocyte injury in endotoxemia.