Lithium induced changes in intracellular free magnesium concentration in isolated rat ventricular myocytes

We have examined the effect of exposing isolated rat ventricular myocytes to lithium while measuring cytosolic free magnesium ([Mg²⁺]_i) and calcium ([Ca²⁺]_i) levels with the fluorescent, ion sensitive probes mag-fura-2 and fura-2. There was a significant rise in [Mg²⁺]_i after a 5 min exposure to a solution in which 50% of the sodium had been replaced by Li⁺, but not when the sodium had been replaced by bis-dimethylammonium (BDA). However, there were significant increases in [Ca²⁺]_i when either Na⁺ substitute was used. The possibility that Li⁺, which enters the cells, interferes with the signal from mag-fura-2 was eliminated as Li⁺ concentrations up to 10 mM had no effect on the dye's fluorescence signal. A possible explanation for these findings is that Li⁺ displaces Mg²⁺ from intracellular binding sites. Having considered the binding constants for Mg²⁺ and Li⁺ to ATP, we conclude that Li⁺ can displace Mg²⁺ from Mg-ATP, thus causing a rise in [Mg²⁺]_i. This work has implications for other studies where Li⁺ is used as a Na⁺ substitute.     

胍丁胺对大鼠心室肌细胞内游离钙浓度的影响

本研究旨在观察胍丁胺 (agmatine ,Agm)对分离大鼠心室肌细胞内游离钙浓度 ( [Ca2 +]i)的影响。用酶解方法分离大鼠心室肌细胞 ,用Fluo 3 AM负载 ,然后用激光共聚焦法测定单个心室肌细胞 [Ca2 +]i 的荧光强度 (fluorescenceintensity ,FI) ,结果以FI或相对荧光强度 (F/F0 % )表示。实验结果表明 ,在正常台氏液 (含钙 1 0mmol/L)和无钙台氏液中 ,单个大鼠心室肌细胞的荧光密度分别为 12 8 8± 13 8和 119 6± 13 6,两者无差异。Agm 0 1、1和 10mmol/L浓度依赖性地显著降低细胞的钙浓度 ;在正常台氏液中加入EGTA 3mmol/L ,Agm同样降低细胞的钙浓度。KCl 60mmol/L ,PE 3 0 μmol/L ,和Bay K 864 410 μmol/L均升高心室肌细胞的[Ca2 +]i。Agm同样降低高浓度KCl、Bay K 864 4和PE诱发的心室肌细胞 [Ca2 +]i 升高。当细胞外液钙浓度由 1mmol/L增加到 10mmol/L时 ,诱发心室肌细胞钙超载 ,同时部分心室肌细胞产生可传播的钙波 (Ca2 +wave) ,Agm 1mmol/L降低钙波的传播速度和持续时间 ,最终阻断钙波。以上结果提示 ,Agm对心室肌细胞的胞浆[Ca2 +]i具有抑制作用 ,此作用通过阻断电压依赖性钙通道而实现 ;并可能与抑制大鼠心室肌细胞内钙释放有关     

白藜芦醇降低大鼠心室肌细胞内游离钙浓度

实验旨在研究白藜芦醇(resveratrol)对大鼠心室肌细胞内钙浓度(intracellular calcium concentratoin,[Ca2+]i)的影响.应用激光共聚焦显微镜技术记录心室肌细胞内的钙荧光强度.结果表明在正常台氏液和无钙台氏液中,白藜芦醇(15～60μmol/L)呈浓度依赖性地降低[Ca2+]i.蛋白酪氨酸磷酸酶抑制剂正钒酸钠(sodium orthovanadate,1.0 mmol/L)和L型Ca2+通道激动剂Bay K8644(10 μmol/L)可部分抑制正常台氏液中白藜芦醇的效应.但NO合酶阻断剂L-NAME(1.0 mmol/L)对白藜芦醇的作用无影响.白藜芦醇也能明显抑制无钙台氏液中由低浓度ryanodine(1.0 nmol/L)引起的[Ca2+]i增加.当细胞外液钙浓度由1 mmol/L增加到10 mmol/L而诱发心室肌细胞钙超载时,部分心室肌细胞产生可传播的钙波,白藜芦醇(60 μmol/L)可降低钙波的传播速度和持续时间,最终阻断钙波.结果提示,白藜芦醇能够降低心室肌细胞内游离钙浓度,此作用可能与其抑制电压依赖性Ca2+通道、酩氨酸激酶和肌浆网内钙释放有关.     

Effect of acidosis on transient outward potassium current in isolated rat ventricular myocytes

The effect of acidosis on the transient outward K(+) current (I(to)) of rat ventricular myocytes has been investigated using the perforated patch-clamp technique. When the holding potential was -80 mV, depolarizing pulses to potentials positive to -20 mV activated I(to) in subepicardial cells but activated little I(to) in subendocardial cells. Exposure to an acid solution (pH 6.5) had no significant effect on I(to) activated from this holding potential in either subepicardial or subendocardial cells. When the holding potential was -40 mV, acidosis significantly increased I(to) at potentials positive to -20 mV in subepicardial cells but had little effect on I(to) in subendocardial cells. The increase in I(to) in subepicardial cells was inhibited by 10 mM 4-aminopyridine. In subepicardial cells, acidosis caused a +8.57-mV shift in the steady-state inactivation curve. It is concluded that in subepicardial rat ventricular myocytes acidosis increases the amplitude of I(to) as a consequence of a depolarizing shift in the voltage dependence of inactivation.     

kappa-Opioid receptor stimulation increases intracellular free calcium in isolated rat ventricular myocytes.

The effect of two specific kappa-agonists, dynorphinA1-13 and U50,488H, on intracellular free calcium [Ca]i in isolated rat ventricular myocytes was studied. A spectrofluorimetric method using fura 2 as calcium indicator was employed. It was found that both agonists increased [Ca]i dose-dependently. The effect was attenuated by Mr 2266, a kappa-antagonist, indicating that the effect is a kappa-receptor mediated event. The effect was abolished by pretreatment with ryanodine, a drug that mobilizes calcium from the sarcoplasmic reticulum. It was, however, not affected by nifedipine, a calcium antagonist or removal of external calcium. The results indicate that the increase in [Ca]i due to kappa-opioid receptor stimulation results primarily from mobilization of calcium from an intracellular pool.     

Non-genomic effects of aldosterone on intracellular ion regulation and cell volume in rat ventricular myocytes

Aldosterone has non-genomic effects that express within minutes and modulate intracellular ion milieu and cellular function. However, it is still undefined whether aldosterone actually alters intracellular ion concentrations or cellular contractility. To clarify the non-genomic effects of aldosterone, we measured [Na+]i, Ca2+ transient (CaT), and cell volume in dye-loaded rat ventricular myocytes, and we also evaluated myocardial contractility. We found the following: (i) aldosterone increased [Na+]i at the concentrations of 100 nmol/L to 10 micromol/L; (ii) aldosterone (up to 10 micromol/L) did not alter CaT and cell shortening in isolated myocytes, developed tension in papillary muscles, or left ventricular developed pressure in Langendorff-perfused hearts; (iii) aldosterone (100 nmol/L) increased the cell volume from 47.5 +/- 3.6 pL to 49.8 +/- 3.7 pL (n=8, p<0.05); (iv) both the increases in [Na+]i and cell volume were blocked by a Na+-K+-2Cl- co-transporter (NKCCl) inhibitor, bumetanide, or by a Na+/H+ exchange (NHE) inhibitor, 5-(N-ethyl-N-isopropyl) amiloride; and (v) spironolactone by itself increased in [Na+]i and cell volume. In conclusion, aldosterone rapidly increased [Na+]i and cell volume via NKCC1 and NHE, whereas there were no changes in CaT or myocardial contractility. Hence the non-genomic effects of aldosterone may be related to cell swelling rather than the increase in contractility.     

Non-mitochondrial calcium ion regulation in rat ventricular myocytes

Ca2+ exchange has been measured in a suspension of rat ventricular myocytes treated with digitonin or saponin to render the sarcolemma permeable to small molecules and ions. Two fractions of exchange were identified, one that was attributed to the mitochondrial component of the cell and the other to a non-mitochondrial fraction. Mitochondrial Ca2+ uptake was blocked by sodium azide and depended on respiratory substrates whereas non-mitochondrial uptake occurred independently of these molecules but was dependent on ATP and creatine phosphate. Non-mitochondrial Ca2+ uptake could be induced at a Ca2+ concentration below 1 microM and the initial rate increased with concentration up to 100 microM. Uptake could be reversed by sulmazole (a caffeine-like substance) and this reversal in turn inhibited by ryanodine. These properties suggest that the major locus for non-mitochondrial Ca2+ exchange is at the sarcoplasmic reticulum. Ca2+ exchange could be modulated by a number of agents, including carnosine, but was unaffected by others, including Na+, inositol trisphosphate and cyclic AMP. A kinetic model of the data is presented, which incorporates similar data of Ca2+ uptake into the mitochondrial fraction. The rates of Ca2+ exchange measured in these experiments suggest that these two components of the cell can reduce the sarcoplasmic Ca2+ concentration rapidly enough to account for the observed transient nature of the isometric twitch. Furthermore, it is suggested that both non-mitochondrial and mitochondrial fractions of the cell could significantly contribute to tension relaxation in rat cardiac muscle.     

腺苷减少豚鼠心室肌细胞内游离钙浓度

目的：研究腺苷对豚鼠心室肌细胞内游离钙浓度（[Ca^2＋]i）的影响并探讨其可能机制。方法：用激光共聚焦显微镜探测细胞内游离钙浓度,结果用相对荧光强度（（FI-FI0）／FI0,％;FI0：对照;FI：给药）表示。结果：①在正常台氏液和无钙台氏液中,腺苷（10,50,100μmol／L）浓度依赖性地降低[Ca^2＋];。②含30mmol／L KCl的台氏液（高钾台氏液）能够增加[Ca^2＋]i。腺苷（10,50,100μmol／L）能够显著抑制KCl引起的[Ca^2＋]i的增加。③预先应用选择性腺苷AI受体拮抗剂DPCPX（1μmol／L）,可大部分取消腺苷（100μmol／L）在高钾台氏液中的作用。腺苷（100μmol／L）在高钾台氏液的作用也可被预先应用一氧化氮（No）合酶抑制剂L-NAME（1mmol／L）所部分减弱。④腺苷（100μmol／L）能明显抑制无钙台氏液中由低浓度ryanodine引起的[Ca^2＋];增加。⑤当细胞外液钙浓度由1mmol／L增加到10mmol／L而诱发心室肌细胞钙超载时,部分心室肌细胞产生可传播的钙波,腺苷（100μmol／L）可降低钙波发生的频率和持续时间,最终阻断钙波并降低[Ca^2＋];。结论：腺苷可通过抑制外钙内流和减少肌浆网内钙释放从而降低[Ca^2＋],其减少外钙内流可能是由于腺苷A1受体介导的电压依赖性Ca^2＋通道的抑制,NO可能参与这一过程。     

三羟异黄酮对豚鼠心室肌细胞内游离钙浓度的影响

用激光共聚焦显微镜观察研究三羟异黄酮(genistein,GST)对豚鼠心室肌细胞内游离钙浓度([Ca^2 ]i)的影响。结果用相对荧光强度(FI-F0／FX0,％)表示。实验结果显示,在正常台氏液、无钙台氏液和正常台氏液中加入3mmol／L EGTA后,GST(10～40μmol／L)浓度依赖性地降低细胞内钙浓度。蛋白酪氨酸磷酸酶抑制剂正钒酸钠(sodium orthovanadate)和L-型Ca^2 通道激动剂Bay K8644可部分抑制正常台氏液时GST的效应。当细胞外液钙浓度由1mmol／L增加到10mmol／L而诱发心室肌细胞钙超载时,部分心室肌细胞产生可传播的钙波,GST(40μmol／L)可降低钙波的传播速度和持续时间,最终阻断钙波。以上结果提示,GST降低心室肌细胞内游离钙浓度,此作用与其抑制电压依赖性Ca^2 通道、减弱酪氨酸激酶抑制和豚鼠心室肌细胞肌浆网内钙释放有关。     

Increased intracellular calcium concentration causes electrical turbulence in guinea pig ventricular myocytes

Dysregulation of intracellular Ca²⁺ homeostasis is associated with various pathological conditions and arrhythmogenesis of the heart. The objective of this study was to investigate the effects of an acute increase in intracellular Ca²⁺ concentration ([Ca²⁺]_i) on the electrophysiology of ventricular myocytes by mimicking intracellular Ca²⁺ overload. The [Ca²⁺]_i was clamped to either a controlled (65–100 nmol L⁻¹) or increased (1 μmol L⁻¹) level. The transmembrane action potentials and ionic currents were recorded using whole-cell patch clamp techniques. We found that the acute increase in [Ca²⁺]_i shortened the action potential duration, reduced the action potential amplitude, maximum depolarization velocity and resting membrane potential, caused delayed after-depolarizations (DADs), and triggered activity—compared with these parameters in the control. The increased [Ca²⁺]_i augmented late I _Na in a time-dependent manner, reduced I _CaL and I _K1, and increased I _Kr but not I _Ks. The results of this study can be used to explain calcium overload-induced ventricular arrhythmias.     

Sulfur dioxide derivative modulation of potassium channels in rat ventricular myocytes

The effects of sulfur dioxide (SO2) derivatives (bisulfite and sulfite, 1:3 M/M) on voltage-dependent potassium current in isolated adult rat ventricular myocyte were investigated using the whole cell patch-clamp technique. SO2 derivatives (10 microM) increased transient outward potassium current (I(to)) and inward rectifier potassium current (I(K1)), but did not affect the steady-state outward potassium current (I(ss)). SO2 derivatives significantly shifted the steady-state activation curve of I(to) toward the more negative potential at the V(h) point, but shifted the inactivation curve to more positive potential. SO2 derivatives markedly shifted the curve of time-dependent recovery of I(to) from the steady-state inactivation to the left, and accelerated the recovery of I(to) from inactivation. In addition, SO2 derivatives also significantly change the inactivation time constants of I(to) with increasing fast time constant and decreasing slow time constant. These results indicated a possible correlation between the change of properties of potassium channel and SO2 inhalation toxicity, which might cause cardiac myocyte injury through increasing extracellular potassium via voltage-gated potassium channels.     

Depressed transient outward potassium current density in catecholamine-depleted rat ventricular myocytes

The effect of catecholamine depletion (induced by prior treatment with reserpine) was studied in Wistar rat ventricular myocytes using whole cell voltage-clamp methods. Two calcium-independent outward currents, the transient outward potassium current (I(to)) and the sustained outward potassium current (I(sus)), were measured. Reserpine treatment decreased tissue norepinephrine content by 97%. Action potential duration in the isolated perfused heart was significantly increased in reserpine-treated hearts. In isolated ventricular myocytes, I(to) density was decreased by 49% in reserpine-treated rats. This treatment had no effect on I(sus). The I(to) steady-state inactivation-voltage relationship and recovery from inactivation remained unchanged, whereas the conductance-voltage activation curve for reserpine-treated rats was significantly shifted (6.7 mV) toward negative potentials. The incubation of myocytes with 10 microM norepinephrine for 7-10 h restored I(to), an effect that was abolished by the presence of actinomycin D. Norepinephrine (0.5 microM) had no effect on I(to). However, in the presence of both 0.5 microM norepinephrine and neuropeptide Y (0.1 microM), I(to) density was restored to its control value. These results suggest that the sympathetic nervous system is involved in I(to) regulation. Sympathetic norepinephrine depletion decreased the number of functional channels via an effect on the alpha-adrenergic cascade and norepinephrine is able to restore expression of I(to) channels.     

白介素-2对心肌细胞[Ca~(2 )]_i的作用及其信号转导途径

为研究白介素 2 (interleukin 2 ,IL 2 )对心肌细胞内钙浓度 ([Ca2 ]i)的影响及其信号转导途径 ,实验采用酶解法分离成年大鼠心室肌细胞 ,以Fura 2 /AM为钙探针 ,用细胞内双波长钙荧光系统检测细胞 [Ca2 ]i 的变化。结果发现 :(1)IL 2 (0 5～ 2 0 0U/ml)浓度依赖性地降低单个心室肌细胞内钙瞬态 ,IL 2 (2 0 0U/ml)对咖啡因诱导的肌浆网内储钙的释放无影响 ;(2 )纳洛酮 (naloxone ,Nal) (10 -8mol/L)和nor binaltorphimine (nor BNI,10 -8mol/L)可阻断IL 2对心肌细胞钙瞬态的作用 ,而纳曲吲哚 (naltrindole ,NTI) (10 -6mol/L)不能阻断此作用 ;(3)κ阿片受体激动剂U5 0 488H (10 -6mol/L)降低心肌细胞钙瞬态 ,nor BNI (10 -8mol/L)可阻断此作用 ;(4 ) 5mg/L百日咳毒素 (PTX)预处理可取消IL 2降低心肌细胞钙瞬态的作用 ,而酪氨酸激酶抑制剂genistein (10 -4 mol/L)不能取消IL 2的作用 ;(5 )U7312 2预处理可阻断IL 2的作用。研究结果表明 ,IL 2降低心肌细胞钙瞬态的作用 ,是通过心肌细胞上κ阿片受体介导的 ,其下游途径包括PTX敏感的G蛋白和磷脂酶C。     

白介素—2对心肌细胞[Ca^2＋]i的作用及其信号转导途径

为研究白介素－2（interleukin-2,IL-2）对心肌细胞内钙浓度（[Ca^2 ]i）的影响及其信号转导途径,实验采用酶解法分离成年大鼠心室肌细胞,以Fura-2/AM为钙探针,用细胞内双波长钙荧光系统检测细胞[Ca^2 ]i的变化。结果发现：（1）IL－2（0.5-200U/ml）浓度依赖性地降低单个心室肌细胞内钙态,IL－2（200U／ml）对咖啡因诱导的肌浆网内储钙的释放无影响;（2）纳洛酮(naloxone,Nal)(10^-8mol/L）和nor-binaltorphimine(nor-BNI,10^-8mol/L）可阻断IL－2对心肌细胞钙瞬态的作用,而纳曲吲哚（naltrindole,NTI）（10^-6mol/L）不能阻断此作用;（3）κ阿片受体激动剂U50488H（10^-6mol/L）降低心肌细胞钙瞬态,nor-BNI(10^-8mol/L）可阻断此作用;（4）5mg/L百日咳毒素（PTX）预处理可取消IL－2降低心肌细胞钙瞬态的作用,而酪氨酸激酶抑制剂genistein(10^-4mol/L）不能取消IL－2的作用;（5）U73122预处理可阻断IL－2的作用。研究结果表明,IL－2降低心肌细胞钙瞬态的作用,是通过心肌细胞上κ阿片受体介导的,其下游途径包括PTX敏感的G蛋白和磷脂酶C。     

牛磺酸对大鼠心肌细胞内钙浓度的影响

牛磺酸 (Ｔａｕｒｉｎｅ ,Ｔａｕ)是可兴奋组织中含量最为丰富的游离氨基酸 ,是细胞自稳态的重要调节物质。在多种心血管疾病的临床与实验研究中具有明显的细胞保护作用。其作用机制与调节心肌细胞的钙浓度有关。用同位素示踪技术已证实Ｔａｕ在细胞内“高钙”状态下能抑制钙的跨膜内流。本文采用Ｆｕｒａ 2荧光技术测定Ｔａｕ对成年大鼠分离心肌细胞在静息、高钾去极化以及缺氧 /复氧条件下游离 [Ｃａ ]ｉ,旨在进一步探讨Ｔａｕ的作用机制。1　材料与方法(1)动物实验　雄性Ｗｉｓｔａｒ大鼠 (军事医学科学院四所提供 )。 2 0 %乌拉坦ｉｐ…     

低浓度双氢哇巴因对豚鼠心室肌细胞内游离钙浓度的影响

用激光共聚焦显微镜检查研究低浓度双氢哇巴因（DHO）对豚鼠心室肌细胞内钙浓度（[Ca^2 ]i)的影响。DHO 1fmol/L-1 mmol/L可增加心室肌细胞的[Ca^2 ]i,尤其以10pmol/L DHO为显著,Nisoldipine,EGTA或TTX可分别部分抑制10pmol/L DHO的作用,去除胞外K^ 和Na^ 后,上述作用仍存在,以上结果表明,低浓度DHO中通过激活钙通道和TTX敏感的钠通道,或许还可直接促进胞内钙释放来增加[Ca^2 ]i,并有不依赖Na^ /K^ 泵而升高[Ca^2 ]i的作用。     

Action potential duration and activation of ATP-sensitive potassium current in isolated guinea-pig ventricular myocytes

It is difficult to associate the ATP-sensitive potassium (K-ATP) channel of cardiac muscle with hypoxia/ischemia induced action potential shortening because this occurs before intracellular ATP falls to levels associated in vitro with channel opening. This leaves the cardiac K-ATP channel without any obvious physiological function. We have quantitatively examined the relationship between action potential duration and K-ATP channel activity in enzymatically isolated ventricular myocytes of the guinea-pig. In whole-cell voltage-clamp recording experiments when the K-ATP channel opener SR 44866 (2-10 microM) stimulated an outward membrane current greater than 50 pA at 0 mV membrane potential (the equivalent of 30 open K-ATP channels or 1% of the cell K-ATP channel population) action potential duration was reduced by more than 50%. In the majority of cell-attached membrane patch recordings metabolic inhibition stimulated K-ATP channel open probability of 1-2% which continued for long periods (7-25 min) before cell contracture and coincident major K-ATP channel activation (open probability 65%). Our quantitative analysis thus shows that physiologically relevant activity of K-ATP channels in cardiac muscle is confined to a very small percentage of the possible cell K-ATP current and thus intracellular ATP would not have to fall very far before the opening of K-ATP channels would influence cardiac excitability.     

Regulation of mitochondrial fission by intracellular Ca2+ in rat ventricular myocytes

Mitochondria are dynamic organelles that constantly undergo fission, fusion, and movement. Increasing evidence indicates that these dynamic changes are intricately related to mitochondrial function, suggesting that mitochondrial form and function are linked. Calcium (Ca²⁺) is one signal that has been shown to both regulate mitochondrial fission in various cell types and stimulate mitochondrial enzymes involved in ATP generation. However, although Ca²⁺ plays an important role in adult cardiac muscle cells for excitation–metabolism coupling, little is known about whether Ca²⁺ can regulate their mitochondrial morphology. Therefore, we tested the role of Ca²⁺ in regulating cardiac mitochondrial fission. We found that neonatal and adult cardiomyocyte mitochondria undergo rapid and transient fragmentation upon a thapsigargin (TG)- or KCl-induced cytosolic Ca²⁺ increase. The mitochondrial fission protein, DLP1, participates in this mitochondrial fragmentation, suggesting that cardiac mitochondrial fission machinery may be regulated by intracellular Ca²⁺ signaling. Moreover, the TG-induced fragmentation was also associated with an increase in reactive oxygen species (ROS) formation, suggesting that activation of mitochondrial fission machinery is an early event for Ca²⁺-mediated ROS generation in cardiac myocytes. These results suggest that Ca²⁺, an important regulator of muscle contraction and energy generation, also dynamically regulates mitochondrial morphology and ROS generation in cardiac myocytes.