Cerium depresses protein synthesis in cultured cardiac myocytes and lung fibroblasts

The present study examined the effect of Cerium on protein synthesis in cultured cardiac myocytes and lung fibroblasts exposed to normal and markedly subnormal levels of Mg²⁺. Cerium was found to have a general inhibitory effect on protein synthesis in these cell types, including the synthesis of myofibrillar proteins in the cardiac myocytes. Further, the effect of the metal ion was more pronounced in cells exposed to the Mg²⁺-deficient medium. The possible implications of the observations are discussed.     

Models of cardiac excitation-contraction coupling in ventricular myocytes

Mathematical and computational modeling of cardiac excitation-contraction coupling has produced considerable insights into how the heart muscle contracts. With the increase in biophysical and physiological data available, the modeling has become more sophisticated with investigations spanning in scale from molecular components to whole cells. These modeling efforts have provided insight into cardiac excitation-contraction coupling that advanced and complemented experimental studies. One goal is to extend these detailed cellular models to model the whole heart. While this has been done with mechanical and electophysiological models, the complexity and fast time course of calcium dynamics have made inclusion of detailed calcium dynamics in whole heart models impractical. Novel methods such as the probability density approach and moment closure technique which increase computational efficiency might make this tractable.     

Enhancing effects of diethyldithiocarbamate on increase of sodium channel by sulfur dioxide derivatives in ventricular myocytes

The enhancing effects of diethyldithiocarbamate (DDC) on increase of sodium channel by sulfur dioxide derivatives in ventricular myocytes were studied using the whole cell patch-clamp technique to probe the mechanism of SO(2) on the cardiovascular system in this study. Firstly, the effects of DDC and/or sulfur dioxide (SO(2)) derivatives on the activities of superoxide dismutase (SOD) were studied. The results showed that DDC decreased SOD activities significantly and SO(2) derivatives had no significant effect on SOD activities; however, DDC and SO(2) derivatives combined led to a significant decrease of SOD activities. In the electrophysiological test, DDC (1-100mM) increased sodium current (I(Na)) in a concentration-dependent manner and the concentration for half-maximum increase (EC(50)) was 20mM. Addition of 20mM DDC to the SO(2) derivatives-containing medium significantly shifted the voltage-dependent activation curve of I(Na) toward the hyperpolarizing direction (V(h) are -51mV, -53mV and -54mV, respectively) and shifted the steady-state inactivation curve to more positive potentials (V(h) are -74mV, -71mV and -65mV, respectively) compared with the control and 10muM SO(2) derivatives exposure. These results indicated that DDC could enhance the increasing effects on Na(+) channels induced by SO(2) derivatives, and suggested that the toxicity of SO(2) on ventricular myocytes of rats was realized by free radical, especially O(2)(-).     

The effect of isoflurane during reoxygenation on the sarcoplasmic reticulum and cellular injury in isolated ventricular myocytes

In contrast to pretreatment with isoflurane its benefit when applied during reperfusion in rat hearts was only modest. As cellular injury during reoxygenation is greatly determined by sarcoplasmic reticulum (SR) calcium [Ca2+] handling we investigated the effect of isoflurane after simulated ischemia in rat ventricular myocytes. Hypoxic metabolic inhibition was induced by exposure to an acidic medium (pH: 6.3) containing deoxyglucose. Ambient pO2 was reduced to <15 mm Hg. After 30 min, cells were reoxygenated for 30 min with a glucose containing medium (pH: 7.4) in air (Air) or in the presence of isoflurane (Iso), or two SR blockers, i.e. either 3 microM ryanodine (Rya) or 10 microM of cyclopiazonic acid (CPA). During inhibition, diastolic cytosolic calcium ([Ca2+]i) increased and systolic cell shortening decreased. [Ca2+]i further increased in all groups towards the end of reoxygenation. However, [Ca2+]i in the Iso and the Rya group climbed twice as high as in the Air and the CPA group (P < 0.05). Hypercontracture occurred in 23% and 18% in the Iso and the Rya and in 10% and 9% in the Air and the CPA group, respectively (P < 0.05). Cell relengthening and shortening was impaired in Iso, Rya, and CPA treated cells (P < 0.05 vs. Air). Isoflurane given solely during reoxygenation appears to augment cellular injury. Its action seems to be blockade of SR Ca2+ release and Ca2+ efflux. SR Ca2+ overload induces spontaneous Ca2+ oscillations that cause hypercontracture. However, [Ca2+]i does not independently govern cellular systolic and diastolic dysfunction.     

Dependence of exogenous SERCA gene expression on coxsackie adenovirus receptor levels in neonatal and adult cardiac myocytes

We demonstrate that the efficiency of adenovirus-assisted exogenous Ca(2+) ATPase (SERCA) and reporter (EGFP) gene expression is much higher in primary cultures of myocytes from neonatal rat hearts, than in primary cultures of myocytes from adult rat hearts. In this respect, the neonatal myocytes behave similarly to the established COS-1 cell line. This difference is related to the level of coxsackie adenovirus receptor (CAR) that affects cell penetration and expression level of exogenous genes, and explains variations in the observed consequences of exposure to adenovirus vector carrying SERCA cDNA. Awareness of these differences should be highly advantageous in complementary studies of exogenous gene expression in neonatal and adult myocytes. It should also be advantageous in evaluating conditions yielding optimal ratios of functional benefits over possible toxic effects upon exogenous SERCA gene delivery to cardiac muscle.     

Changes in the fluctuation of the contraction rhythm of spontaneously beating cardiac myocytes in cultures with and without cardiac fibroblasts

The heart functions as a syncytium of cardiac myocytes and surrounding supportive non-myocytes such as fibroblasts. There is a possibility that a variety of non-myocyte-derived factors affect the maturation of cardiac myocytes in the development of the heart. Cultured neonatal cardiac myocytes contract spontaneously and cyclically. The fluctuation of beating rhythm varies depending on the strength of coupling through gap junctions among cardiac myocytes, indicating that the development of intercellular communication via gap junctions is crucial to the stability of contraction rhythm in cardiac myocytes. In this study, we aimed at elucidating whether and how cardiac fibroblasts affect the development of cardiac myocytes from the point of view of the changes in the fluctuation of the contraction rhythm of cardiac myocytes in cardiac myocyte–fibroblast co-cultures. The present study suggested that cardiac fibroblasts co-cultured with cardiac myocytes enhanced the intercellular communication among myocytes via gap junctions, thereby stabilizing the spontaneous contraction rhythm of cultured cardiac myocytes.     

Effect of ethanol on lipofuscin accumulation in cultured rat cardiac myocytes

The objective of this study was to determine the effect of ethanol on in vitro life span, rate of contraction and lipofuscin content of neonatal rat cardiac myocytes. Lipofuscin was quantified by microspectrofluorometry. The effects of 0, 3.1, 6.5, and 12.5 mM ethanol on myocytes, kept under an ambient oxygen concentration of 20% and 40%, were studied. Exposure to low concentrations of ethanol resulted in a decrease in the amount of lipofuscin whereas exposure to high concentration of ethanol caused an increase in the level of lipofuscin. The length of cell survival in controls and 3.1 mM ethanol exposed myocytes was similar under 20% oxygen, but was longer in the latter group under 40% oxygen, as compared to controls. The total number of contractions in 3.1 mM ethanol-exposed myocytes were, respectively, 4% and 8% higher under 20% and 40% oxygen atmosphere than in control cells.     

超声破裂载基因微泡增强心肌细胞报告基因的转染与表达

目的:通过超声破裂载基因微泡介导报告基因心肌细胞转染,探讨其能否增强心肌细胞外源基因转染与表达.方法:以β-galactosidase质粒为报告基因,将其与自制氟碳气体微泡粘附,制备载基因微泡.利用诊断性超声破裂微泡进行体外心肌细胞基因转染;以磷酸钙共沉淀转染为阳性对照并将其以不同方式与超声破裂微泡技术联合应用,以期进一步增强基因转染效果.分别采用原位染色及酶学定量检测β-galactosidase表达水平,同时进行细胞活性检测.结果:超声破裂载基因氟碳气体微泡(PESDA)转染组心肌细胞β-galactosidase表达水平可达单纯质粒转染组60倍(P＜0.01).磷酸钙共沉淀转染3.67倍(P＜0.01)超声强度、微泡浓度对超声破裂介导基因转染效果有明显影响.超声破裂微泡技术与磷酸钙共沉淀联合应用可进一步提高报告基因的表达(P＜0.05),即使在磷酸钙转染后6 h,超声破裂微泡仍能明显增强报告的基因的表达(P＜0 05).结论:超声破裂微泡技术是一种高效基因转染方法,其不但能增加DNA转染,而且增强入胞后基因的表达.超声破裂微泡与其它基因转染技术联合应用能进一步增加基因转染效率.     

Calcium homeostasis and signaling in yeast cells and cardiac myocytes

Calcium ions are the most ubiquitous and versatile signaling molecules in eukaryotic cells. Calcium homeostasis and signaling systems are crucial for both the normal growth of the budding yeast Saccharomyces cerevisiae and the intricate working of the mammalian heart. In this paper, we make a detailed comparison between the calcium homeostasis/signaling networks in yeast cells and those in mammalian cardiac myocytes. This comparison covers not only the components, structure and function of the networks but also includes existing knowledge on the measured and simulated network dynamics using mathematical models. Surprisingly, most of the factors known in the yeast calcium homeostasis/signaling network are conserved and operate similarly in mammalian cells, including cardiac myocytes. Moreover, the budding yeast S. cerevisiae is a simple organism that affords powerful genetic and genomic tools. Thus, exploring and understanding the calcium homeostasis/signaling system in yeast can provide a shortcut to help understand calcium homeostasis/signaling systems in mammalian cardiac myocytes. In turn, this knowledge can be used to help treat relevant human diseases such as pathological cardiac hypertrophy and heart failure.     

beta1 integrins expression in adult rat ventricular myocytes and its role in the regulation of beta-adrenergic receptor-stimulated apoptosis

We have shown that the stimulation of beta-adrenergic receptors (beta-AR) increases apoptosis in adult rat ventricular myocytes (ARVMs). Integrins, a family of alphabeta-heterodimeric cell surface receptors, are postulated to play a role in ventricular remodeling. Here, we show that norepinephrine (NE) increases beta1 integrins expression in ARVMs via the stimulation of alpha1-AR, not beta-AR. Inhibition of ERK1/2 using PD 98059, an inhibitor of ERK1/2 pathway, inhibited alpha1-AR-stimulated increases in beta1 integrins expression. Activation of beta1 integrins signaling pathway using laminin (LN) inhibited beta-AR-stimulated apoptosis as measured by terminal deoxynucleotidyl transferase-mediated nick end labeling (TUNEL)-staining and flow cytometry. Likewise, ligation of beta1 integrins with anti-beta1 integrin antibodies prevented beta-AR-stimulated apoptosis. Treatment of cells using LN or anti-beta1 integrin antibodies activated ERK1/2 pathway. PD 98059 inhibited activation of ERK1/2 by LN, and prevented the anti-apoptotic effects of LN. Thus (1) stimulation of alpha1-AR regulates beta1 integrins expression via the activation of ERK1/2, (2) beta1 integrins signaling protects ARVMs from beta-AR-stimulated apoptosis, (3) activation of ERK1/2 plays a critical role in the anti-apoptotic effects of beta1-integrin signaling. These data suggest that beta1 integrin signaling protects ARVMs against beta-AR-stimulated apoptosis possibly via the involvement of ERK1/2.     

Ventricular and atrial myocytes of newborn rats synthesise and secrete atrial natriuretic peptide in culture: Light-and electron-microscopical localisation and chromatographic examination of stored and secreted molecular forms

Summary We have demonstrated that atrial natriuretic peptide-like immunoreactivity is stored and secreted by ventricular and atrial myocytes in dissociated cell culture preparations from the heart of newborn rat. Culture preparations were maintained in either foetal calf serum-supplemented medium 199 or in hormone-supplemented, serum-free medium 199. The presence of atrial natriuretic peptidelike immunoreactivity in the cultured myocytes was demonstrated at both light-and electron-microscopical levels. Release of atrial natriuretic peptide-like immunoreactivity into the culture medium was measured by radioimmunoassay; molecular forms of the stored and secreted peptide were determined by gel column chromatography. The atrial natriuretic peptide-like immunoreactivity of cultured atrial and ventricular myocytes was concentrated in the perinuclear cytoplasm and was localised to electron-dense secretory granules. The number of immunoreactive ventricular myocytes and the intensity of their immunofluorescence changed with time in culture and was higher in cultures in foetal calf serum-supplemented medium than in serum-free medium. Gamma-atrial natriuretic peptide was stored and released by cultured atrial and ventricular myocytes, but was broken down to alpha-atrial natriuretic peptide in the growth medium. This process was foetal calf serum-independent, since it occurred in both the media used, indicating that cardiac myocytes in culture may release a factor that cleaves gamma-atrial natriuretic peptide to form alphaatrial natriuretic peptide.     

Cyclic AMP metabolism in intact rat ventricular cardiac myocytes: Interaction of carbachol with isoproterenol and 3-isobutyl-1-methylxanthine

Experiments were carried out to elucidate the characteristics of regulation of cyclic AMP levels in intact myocardial cells. For this purpose, the influence of isoproterenol, a nonselective cyclic nucleotide phosphodiesterase (PDE) inhibitor 3-isobutyl-1-methylxanthine (IBMX) and carbachol on cyclic AMP levels was investigated in isolated rat cardiac myocytes. The extent of cyclic AMP accumulation induced by isoproterenol was much less than that produced by IBMX: submaximal concentrations of isoproterenol and IBMX elevated the cyclic AMP level 2.4- and 4.8-fold of the control level, respectively. Both agents in combination increased the cyclic AMP level markedly 48-fold. Carbachol inhibited the cyclic AMP accumulation induced by isoproterenol, IBMX and their combination by 30%, 60% and 80% of the respective response. The extent of inhibition produced by carbachol of the cyclic AMP accumulation induced by IBMX + isoproterenol was smaller than that caused by propranolol, and carbachol produced only a marginal additional inhibitory action to that of propranolol, implying that carbachol does not affect the process of cyclic AMP degradation. The present findings indicate that in intact cardiac myocytes the rate of cyclic AMP degradation catalyzed by PDE may be a crucial process of cyclic AMP turnover. This view is supported by the observations that the inhibitory action of carbachol on the effect of isoproterenol was less than that on the effect of IBMX, and that the inhibitory action of carbachol was markedly enhanced by the simultaneous presence of IBMX.     

Effect of SIN-1 in rat ventricular myocytes: interference with beta-adrenergic stimulation

We have examined the effects of the nitric oxide (NO) donor, 3-morpholino-sydnonimine (SIN-1), on Ca(2+) transients, L-type Ca(2+) current (I(Ca,L)), and cGMP/cAMP content in electrically-stimulated rat ventricular myocytes in the absence and presence of the beta-adrenergic stimulation with isoproterenol. SIN-1 had no effect at low concentrations, but decreased the amplitude of electrically-induced Ca(2+) transients at higher concentrations. SIN-1 attenuated the increase in Ca(2+) transients induced by isoproterenol in a concentration-dependent manner. SIN-1 Also reduced the amplitude of caffeine-induced Ca(2+) transients, and the increase in I(Ca,L) induced by isoproterenol. These effects of SIN-1 were associated with an increased cGMP and a decreased cAMP content in ventricular myocytes in either the absence or presence of isoproterenol. These data suggest that the inhibitory effect of SIN-1 on basal and beta-adrenergic stimulated Ca2+ signal in ventricular myocytes could be due to the depression in the SR function and I(Ca,L), possibly mediated by a cGMP/cAMP-dependent mechanism. Taken together, the present study supports the idea that NO acts as an inhibitory modulator of the cardiac function during pathological conditions associated with an abnormal production of NO such as septic shock.     

Intermittent hypoxia attenuates ischemia／reperfusion induced apoptosis in cardiac myocytes via regulating Bcl-2／Bax expression

Intermittent hypoxia has been shown to provide myocardial protection against ishemiaJreperfusion-induced injury.Cardiac myocyte loss through apoptosis has been reported in ischemia/reperfusion injury. Our aim was to investigate whether intermittent hypoxia could attenuate ischemia/reperfusion-induced apoptosis in cardiac myocytes and its potential mechanisms. Adult male Sprague-Dawley rats were exposed to hypoxia simulated 5000 m in a hypobaric chamber for 6 h/day, lasting 42 days. Normoxia group rats were kept under normoxic conditions. Isolated perfused hearts from both groups were subjected to 30 min of global ischemia followed by 60 min reperfusion.Incidence of apoptosis in cardiac myocytes was determined by terminal deoxynucleotidyl transferase mediated dUTP nick end labeling (TUNEL) and DNA agarose gel electrophoresis. Expressions of apoptosis related proteins,Bax and Bcl-2, in cytosolic and membrane fraction were detected by Western Blotting. After ischemia/reperfusion,enhanced recovery of cardiac function was observed in intermittent hypoxia hearts compared with normoxia group.Ischemia/reperfusion-induced apoptosis, as evidenced by TUNEL-positive nuclei and DNA fragmentation, was significantly reduced in intermittent hypoxia group compared with normoxia group. After ischemia/reperfusion,expression of Bax in both cytosolic and membrane fractions was decreased in intermittent hypoxia hearts comparedwith normoxia group. Although ischemia/reperfusion did not induce changes in the level of Bcl-2 expression in cytosolic fraction between intermittent hypoxia and normoxia groups, the expression of Bcl-2 in membrane fraction was upregulated in intermittent hypoxia group compared with normoxia group. These results indicated that the cardioprotection of intermittent hypoxia against ischemia/reperfusion injury appears to be in part due to reducemyocardial apoptosis. Intermittent hypoxia attenuated ischemia/reperfusion-induced apoptosis via increasing the ratio of Bcl-2/Bax, especially in membrane fraction.     

Aluminum toxicity related to SOD and expression of presenilin and CREB in Bombyx mori

Aluminum (Al) is an important environmental metal factor that can be potentially associated with pathological changes leading to neurotoxicity. The silkworm, Bombyx mori, is an important economic insect and has also been used as a model organism in various research areas. However, the toxicity of Al on silkworm physiology has not been reported. Here, we comprehensively investigate the toxic effects of Al on the silkworm, focusing on its effects on viability and development, superoxide dismutase (SOD) activity, and the expression of presenilin and cAMP response element‐binding protein (CREB) in BmE cells and silkworm larvae. BmE cell viability decreased after treatment with aluminum chloride (AlCl₃) in both dose‐ and time‐dependent manners. When AlCl₃ solution was injected into newly hatched fifth instar larvae, both larval weight gain and survival rate were significantly decreased in a manner correlating with AlCl₃ dose and developmental stage. Furthermore, when BmE cells and silkworm larvae were exposed to AlCl₃, SOD activity decreased significantly relative to the control group, whereas presenilin expression increased more than twofold. Additionally, CREB and phosphorylated CREB (p‐CREB) expression in the heads of fifth instar larvae decreased by 28.0% and 50.0%, respectively. These results indicate that Al inhibits the growth and development of silkworms in vitro and in vivo, altering SOD activity and the expressions of presenilin, CREB, and p‐CREB. Our data suggest that B. mori can serve as a model animal for studying Al‐induced neurotoxicity or neurodegeneration.     

Barium- and calcium-permeable channels open at negative membrane potentials in rat ventricular myocytes

Summary Ca²⁺- and Ba²⁺-permeable channel activity from adult rat ventricular myocytes, spontaneously appeared in the three single-channel recording configurations: cell-attached, and excised inside-out or outside-out membrane patches. Single-channel activity was recorded at steady-state applied membrane potentials including the entire range of physiologic values, and displayed no rundown in excised patches. This activity occurred in irregular bursts separated by quiescent periods of 5 to 20 min in cell-attached membrane patches, whereas in excised patch experiments, this period was reduced to 2 to 10 min. During activity, a variety of kinetic behaviors could be observed with more or less complex gating patterns. Three conductance levels: 22, 45 and 78 pS were routinely observed in the same excised membrane patch, sometimes combining to give a larger level. These channels were significantly permeable to divalent cations and showed little or no permeability to potassium or sodium ions. The inorganic blockers of voltage-gated Ca channels, cobalt (2mm), cadmium (0.5mm) or nickel (3mm), had no apparent effect on these spontaneous unitary currents carried by barium ions. Under 10^–5 m bay K 8644 or nitrendipine, the activity was clearly increased in about half of the tested excised inside-out membrane patches. Both dihydropyridines enhanced openings of the larger conductance level, which was only very occasionally seen under control conditions. When the single-channel activity became sustained under 5×10^–6 m Bay K 8644, it was possible to calculate the mean unitary current at different membrane potentials and show that the mean current value increased with membrane potential.     

幼鼠和成年大鼠心室肌细胞起搏电流的改变

目的:运用膜片钳全细胞技术和实时定量聚合酶链式反应(PCR),探讨幼鼠和成年大鼠心室肌细胞起搏电流(If)及超极化激活的环核苷酸门控通道(HCN)亚型的改变。方法:分离3d的幼鼠和成年大鼠的心室肌细胞;测定HCN1、HCN2、HCN3和HCN4 mRNA的表达;记录If并研究其特性。结果:在新生大鼠心室肌细胞记录到If并得到电流密度-电压曲线,其激活电压约为-75mV;实时定量PCR检测HCN1、HCN2、HCN3和HCN4 mRNA在总HCN mRNA的表达中所占比例分别为0.23%±0.01%、83.58%±0.04%、0.79%±0.01%和15.44%±0.01%。在成年大鼠心室肌细胞也记录到超极化激活、并可以被4mmol/LCsCl阻断的If,其激活电压约为-115mV;HCN1、HCN2、HCN3和HCN4 mRNA在总HCN mRNA中所占比例分别为0.72%±0.02%、91.58%±0.08%、0.27%±0.02%和7.12%±0.02%。HCN2∶HCN4为(13.06±0.21)∶1。结论:随着年龄的增长,大鼠心室肌细胞HCN2所占比例增加;If值减小,激活电压变负。     

Inwardly rectifying single-channel and whole cell K+ currents in rat ventricular myocytes

Summary The voltage-dependent properties of inwardly rectifying potassium channels were studied in adult and neonatal rat ventricular myocytes using patch voltage-clamp techniques. Inward rectification was pronounced in the single-channel currentvoltage relation and outward currents were not detected at potentials positive to the calculated reversal potential for potassium (E _k). Single-channel currents having at least three different conductances were observed and the middle one was predominant. Its single-channel conductance was nonlinear ranging from 20 to 40 pS. Its open-time distribution was fit by a single exponential and the time constants decreased markedly with hyperpolarization fromE _k. The distribution of the closed times required at least two exponentials for fitting, and their taus were related to the bursting behavior displayed at negative potentials. The steady-state probability of being open (P _o) for this channel was determined from the single-channel records; in symmetrical isotonic K solutionsP _o was 0.73 at –60 mV, but fell to 0.18 at –100 mV. The smaller conductance was about one-half the usual value and the open times were greatly prolonged. The large conductance was about 50 percent greater than the usual value and the open times were very brief. TheP _o(V) relation, the kinetics and the conductance of the predominant channel account for most of the whole cell inwardly rectifying current. The kinetics suggest that an intrinsic K⁺-dependent mechanism may control the gating, and the conductance of this channel. In the steady state, the opening and closing probabilities for the two smaller channels were not independent of each other, suggesting the possibility of a sub-conductance state or cooperativity between different channels.