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     

Involvement of hormone processing in insulin-activated glucose transport by isolated cardiac myocytes.

Isolated muscle cells from adult rat heart were used to study the relationship between myocardial insulin processing and insulin action on 3-O-methylglucose transport at 37 degrees C. Internalization of the hormone as measured by determination of the non-dissociable fraction of cell-bound insulin increased linearly up to 10 min, reaching a plateau by 30-60 min at 3 nM-insulin. At this hormone concentration the onset of insulin action was found to be biphasic, with a rapid phase up to 8 min, followed by a much slower phase, reaching maximal insulin action by 30-60 min. Insulin internalization was totally blocked by phenylarsine oxide, whereas dansylcadaverine had no effect on this process. Initial insulin action (5 min) on glucose transport was not affected by chloroquine and dansylcadaverine, but was completely abolished by treatment of cardiocytes with phenylarsine oxide. This drug effect was partly prevented by the presence of 2,3-dimercaptopropanol. Under steady-state conditions (60 min), the stimulatory action of insulin was decreased by about 60% by both chloroquine and dansylcadaverine. This study, demonstrates that insulin action on cardiac glucose transport is mediated by processing of the hormone. The data suggest dual pathways of insulin action involving initial processing of hormone-receptor complexes and lysosomal degradation.     

Cytosolic free calcium concentration and intracellular calcium distribution in lymphocytes from cystic fibrosis patients

Lymphocytes prepared from normal individuals and patients with cystic fibrosis (CF) were compared with regard to intercellular Ca²⁺ concentration, distribution, and handling. No difference between control and CF was found in the concentration of cytosolic free Ca²⁺ ($\text{98 ± 5}\text{vs}\text{102 ± 7}\text{nM}$), and no difference was observed in the kinetics with which control and CF cells restored cytoplasmic Ca²⁺ toward normal following a perturbation induced by cold-exposure. However, total intracellular Ca²⁺ is about 25% higher in CF lymphocytes than in control. Of this excess Ca²⁺, about 50% appears to be sequested in mitochondria. This suggests that some difference in Ca²⁺ handling does exist, but the significance of this cystic fibrosis remains to be determined.     

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.     

Cytosolic free Ca2+ concentration and intracellular calcium distribution of Ca2+-tolerant isolated heart cells

The cytosolic free Ca2+ concentration of calcium-tolerant rat myocytes has been measured by the null point titration technique using arsenazo III as a Ca2+ indicator and digitonin to permeabilize the plasma membrane. The mean value obtained for 8 separate preparations was 270 +/- 35 nM. The distribution of releasable calcium between the mitochondrial and sarcoplasmic reticular compartments was measured by the successive additions of uncoupler and A23187 to cells pretreated with ruthenium red. The relative distribution of calcium in each pool was independent of the cell calcium content up to the maximum value of releasable calcium investigated (4.5 nmol/mg of cell dry weight) and was distributed in the approximate ratio of 2:1 in favor of the sarcoplasmic reticulum. The cells contained 1 nmol of calcium/mg of cell dry weight in a form nonreleasable by A23187, which was independent of the total cell calcium content as measured by atomic absorption spectroscopy. It is calculated that the calcium content of mitochondria in heart under physiological conditions is about 5 nmol/mg of mitochondrial protein. At this level, the mitochondria are likely to provide effective buffering of the cytosolic free Ca2+ concentration of quiescent heart cells. The corresponding intramitochondrial free Ca2+ is in a range above values needed to regulate the activity of Ca2+-dependent enzymes of the citric acid cycle in heart. The physiological calcium content of the sarcoplasmic reticulum in heart cells is estimated to be about 2.5 nmol/mg of cell dry weight, which is at least 5-fold greater than the amount of calcium release calculated to cause maximum tension development of 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。     

Interactions of insulin, catecholamines and adenosine in the regulation of glucose transport in isolated rat cardiac myocytes

The regulation of the glucose transport system by catecholamines and insulin has been studied in isolated rat cardiomyocytes. In the basal state, 1-isoproterenol exhibited a biphasic concentration-dependent regulation of 3-O-methylglucose transport. At low concentrations (less than 10 nM), isoproterenol induced a maximal inhibition of 65-70% of the basal rates, while at higher concentrations (greater than 10 nM) a 25-70% stimulation of transport was observed. In the presence of adenosine deaminase, the inhibition of isoproterenol at low doses was attenuated. No effect of adenosine deaminase was observed on the stimulation of transport at high doses of isoproterenol. The inhibitory effect of isoproterenol returned when N6-phenylisopropyladenosine (a non-metabolizable analog of adenosine) was included along with adenosine deaminase. Dibutyryl cAMP and forskolin both inhibited basal transport rates. In the presence of maximally stimulating concentrations of insulin, cardiomyocyte 3-O-methylglucose transport was generally elevated 200-300% above basal levels. In the presence of isoproterenol, insulin stimulation was inhibited at both high and low concentrations of catecholamine, with maximum inhibition occurring at the lowest concentrations tested. When cells were incubated with both adenosine deaminase and isoproterenol, the inhibition of the insulin response was greater at all concentrations of catecholamine and was almost completely blocked at isoproterenol concentrations of 10 nM or less. Dibutyryl cAMP inhibited the insulin response to within 10% of basal transport levels, while forskolin completely inhibited all transport activity in the presence of insulin. These results suggest that catecholamines regulate basal and insulin-stimulated glucose transport via both cAMP-dependent and cAMP-independent mechanisms and that this regulation is modulated in the presence of extracellular adenosine.     

Effects of phosphodiesterase inhibitors on glucose utilization in isolated cardiac myocytes

The phosphodiesterase (PDE) inhibitor, enoximone, enhances the oxidation of fatty acids in cardiac myocytes. Since carbohydrate oxidation is tightly coupled and inversely related in cardiac tissue to fatty acid oxidation, this study was designed to investigate enoximone's effects on glucose metabolism in the heart. To determine if enoximone alters this reciprocal relationship, the effects of enoximone on [U-¹⁴C]glucose and [2-¹⁴C]pyruvate oxidation were determined in isolated cardiac myocytes. The effect of PDE inhibitors was also examined on pyruvate dehydrogenase complex (PDH) activity, a key component of oxidative glucose metabolism. Two PDE inhibitors, enoximone and milrinone, decreased PDH activity by 69 and 64%, respectively at 0.5 mM. This inhibition of PDH activity by enoximone was completely reversed after removing enoximone from the myocyte medium. PDH activity was unaffected by agents which alter cyclic nucleotide signaling: cGMP, dibutyryl cyclic AMP, and AMP. The effect of enoximone on [2-¹⁴C]pyruvate oxidation was similar to that on PDH. Interestingly, the oxidation of glucose was decreased 35% by 0.5 mM enoximone. In isolated rat heart mitochondria (RHM), enoximone decreased PDH activity by 37%. These studies suggest that PDE inhibitors decrease carbohydrate utilization by inhibiting the PDH complex in the heart. The inhibition of PDH by PDE inhibitors appears unrelated to their effects on cAMP or cGMP. This inhibition of PDH by PDE inhibitors may occur, at least in part, secondary to stimulating fatty acid oxidation.     

Cytosolic free magnesium in cardiac myocytes: identification of a Mg2+ influx pathway

Regulation of intracellular Mg2+ activity in the heart is not well characterized. Cardiac myocytes were prepared as primary cultures from 7 day old chick embryo hearts and intracellular Mg2+ concentration [( Mg2+]i) was determined in single ventricular cells with mag-fura-2. Basal [Mg2+]i was 0.48 +/- 0.03 mM in normal culture medium. There was no correlation of basal [Mg2+]i with cellular contraction or intracellular [Ca2+]i (determined with fura-2). Cardiocytes cultured (16 hr) in low Mg (0.16 mM) media contained 0.21 +/- 0.05 mM Mg2+ which returned to normal levels when placed in Mg media with a refill time of 20 min. Basal [Ca2+]i (121 +/- 11 nM) and stimulated [Ca2+]i (231 +/- 41 nM) was similar to control cells. Verapamil, 25 microM, reversibly blocked Mg2+ refill. In conclusion, the basal [Mg2+]i of isolated cardiomyocytes is considerably below the Mg2+ electrochemical equilibrium allowing passive Mg2+ influx. The influx pathway for Mg2+ is inhibited by verapamil and appears to be independent of Ca2+ as assessed by fura-2.     

Amino acid transport and protein synthesis in energetically-stable calcium-tolerant isolated cardiac myocytes

Myocytes isolated by enzymic dispersion from adult rat ventricular tissue are shown to be energetically stable in the presence of 0.5 mM CaCl₂. ATP and ADP content and rates of lactate production are comparable with those of intact myocardial tissue and consistent with these cells being tightly coupled. Addition of 2,4-dinitrophenol precipitates rapid changes in adenine nucleotide concentrations and a 10-fold increase in lactate production. Cardiac myocytes selectively transport neutral amino acids of the A and L classes. Transport of the amino acid analogue α-aminoisobutyric acid is an active, temperature-dependent and insulin-sensitive process. The apparent K_m for α-aminoisobutyric acid transport is similar to that determined for embryonic cardiac cells. Mature myocytes incorporate labelled amino acids into cytoplasmic proteins with molecular weights ranging from 10 000 to 150 000. Newly synthesised protein is metabolically stable. The data establishes calcium-tolerant myocytes as an experimental system offering many advantages over whole hearts for short- and long-term studies of protein synthesis and catabolism.     

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…     

G-protein-mediated regulation of the insulin-responsive glucose transporter in isolated cardiac myocytes.

Isolated muscle cells from adult rat heart were used to study the involvement of G-proteins in the regulation of the glucose transporter by insulin and isoprenaline. Efficient modification of G-protein functions was established by measuring isoprenaline-stimulated cyclic AMP production, viability and ATP content after treating the cells with cholera toxin and pertussis toxin for 2 h. Under these conditions cholera toxin decreased the stimulatory action of insulin on 3-O-methylglucose transport by 56%, but pertussis toxin had no effect. Basal transport was not affected by toxin treatment. Isoprenaline increased 3-O-methylglucose transport by 63%. This effect was not mimicked by dibutyryl cyclic AMP, but was completely blocked by cholera toxin. Streptozotocin-diabetes abolished isoprenaline action and decreased stimulation of transport by 64%. Concomitantly, cholera-toxin sensitivity of glucose transport was lost in cells from diabetic animals. This was paralleled by a large decrease (87 +/- 4%) in mRNA expression of the insulin-regulatable glucose transporter, as shown by Northern-blot analysis of RNA isolated from cardiomyocytes of diabetic rats. These data suggest a functional association between the insulin-responsive glucose transporter and a cholera-toxin-sensitive G-protein mediating stimulation by insulin and isoprenaline.     

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.     

Cytosolic free calcium and ATP in synaptosomes after ischemia

Elevations in cytosolic free calcium ([Ca2+]i) precede electrophysiological alterations due to ischemia in vivo. An in vitro model of these changes would help to elucidate their molecular basis. A model of postdecapitative ischemia was used to study these interactions. Nerve endings (i.e. synaptosomes) were isolated either immediately after decapitation or at various time periods after decapitation. Synaptosomal [Ca2+]i and ATP concentrations were determined during a basal period and following depolarization. K(+)-depolarization produced an initial spike of [Ca2+]i that was followed by a new equilibrium value. Ischemia elevated the basal [Ca2+]i and the new equilibrium [Ca2+]i after KCl but suppressed the [Ca2+]i spike. However, the difference between the basal [Ca2+]i and the new equilibrium [Ca2+]i after K(+)-depolarization did not vary with ischemia. Although ischemia reduced ATP, K(+)-depolarization did not alter ATP concentrations in either the controls or the ischemia group, which suggests that synaptosomal mitochondria can meet an energy demand after ischemia. ATP was inversely related to the basal or the new equilibrium [Ca2+]i following depolarization. These changes in [Ca2+]i may underlie the alterations in neurotransmitter release and cell death following ischemia. This appears to be a useful model in which to study the molecular basis of ischemia induced changes in [Ca2+]i.     

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.     

心肌细胞的钙致钙释放

心肌细胞兴奋－收缩偶联由胞内钙变中介和调控。去极化进进入细胞的少量钙通过钙下释放（ＣＩＣＲ）过程发肌质多（ＳＲ）释放更多的钙,使胞浆钙浓度升高,导致收缩近年来证明,ＳＲ钙放呈梯级特征,提出了局部控制模型,以解释这种现象。钙火花的发现,直观地证硒钙释放单位的存在,进一步支持了局部控制模型。此外,钙释放通道的适应现象,可能是ＣＩＣＲ这一正反馈过程的负调节机制。