人心钠素基因裸质粒与脂质体介导转染在培养鼠心肌细胞中表达的研究

目的 采用脂质体介导转染法和裸质粒直接转染法 ,将构建的人心钠素 (hANF)真核表达质粒 (pCR3.hANF)导入培养鼠心室肌细胞中 ,观察和比较hANF基因在心肌细胞中的表达效率。方法 实验分为脂质体 /pCR3.hANF转染组、裸 pCR3.hANF转染组及pCR3对照组 ,通过RNA的提取、逆转录 -聚合酶链式反应、Southern杂交及放射免疫测定 ,检测表达效率。结果 (1)转染后 2 4h ,脂质体 / pCR3.hANF转染组和pCR3.hANF转染组hANFmRNA均有明显表达 (P值分别为 <0 0 1和 <0 0 5 ) ,且前者大于后者 (P <0 0 1) ;转染后 4 8h ,两组表达更为显著 (P值均 <0 0 1) ,且较转染后 2 4h明显增高 (P值均小于 0 0 5 ) ;(2 )转染后 4 8h ,脂质体 /pCR3.hANF转染组和 pCR3.hANF转染组培养液中ANF的浓度明显增高 (P值均小于 0 0 1) ;转染组间比较 ,前者hANF的表达也明显高于后者 (P <0 0 1)。结论 脂质体介导的hANF基因转染和裸hANF质粒直接转染均能显著提高hANF基因的表达效率 ;直接转染法更具方便性和实用性 ,有利于将来的临床应用。

CPUHY002对大鼠心肌细胞瞬时外向钾电流的影响

目的观察一种新合成的磷酸二酯酶Ⅲ(PDEⅢ)抑制剂CPUHY002对大鼠心肌细胞瞬时外向钾电流(Ito)的影响。方法采用全细胞膜片钳技术考察CPUHY002对急性分离大鼠心肌细胞和H9c2细胞系Ito的作用。结果在+50 mV下,CPUHY002对急性分离细胞和H9c2细胞系的Ito呈浓度依赖性抑制,其半数有效抑制浓度(IC50)分别为0.98μmol/L和0.91μmol/L;1μmol/L CPUHY002可使I-V曲线明显下移,Ito峰值分别下降(39.10±2.30)%和(47.32±2.06)%,激活曲线右移,失活曲线左移(未见于H9c2),恢复曲线无显著变化。结论 CPUHY002可浓度依赖性地抑制大鼠心肌细胞Ito。

Effects of IQ_23 on the Repolarization and Both Components of the Delayed Rectifier Potassium Current in Guinea Pig Ventricular Myocytcs

Using patch clamp whole cell recording techiques, we examined the effects ofIQ_23, a benzyl-isoquinoline derivative with antiarrhythmic activities, on the action potential (AP) andpotassium currents in single guinea pig ventricular myocytes. The results showed that IQ_23 at 10, 30and 100 μmol ·L_-1 slowed the repolarization in AP dose-dependently. The APD_90 were prolonged by15%, 28% and 31% respectively. This effect did not depend on the extracellular Ca^2+. In voltageclamp mode, IQ_23 effectively blocked both the components of the delayed rectifier potassium current(I_k), i.e., I_ks and I_kr. At concentrations of 30 and 100 μmol· L^-1, IQ_23 suppressed I_ks by 21% and 26%and suppressed I_kr by 67% and 86% respectively. But even at 100 μmol·L^-1, IQ_23 had little effect onthe inward rectifier potassium current (I_k1). It is concluded: 1. IQ_23 can dose-dependently prolongAPD in the ventriculas myocytes of guinea pig, the effect does not depend on the extracellular Ca^2+; 2.IQ_23 blocks both I_ks and Ikr in the ventricular myocytes without obvious specificities between them.

The Effect of Benzyltetrahydropalmatine (BTHP) on Action Potentials and the Two Components of Delayed Rectifying Potassium Currents in Guinea Pig Ventricular Myocytes

The effects of BTHP on Ca 2+ independent action potential and the two components of delayed rectifier potassium currents were studied in guinea pig single ventricular myocytes by using whole cell patch clamp technique. BTHP 30 μmol·L -1 significantly prolonged APD 90 from 143±16 ms to 184±21 ms ( P 【0.01, n=5) without affecting either the RP or APA, and the APD prolonging effects of BTHP were independent of extracellular Ca 2+ . BTHP inhibited both I kr (IC 50 =7 9 μmol·L -1 ) and I ks (IC 50 =22 4 μmol·L -1 ) in a concentration dependent fashion. The results demon strated that BTHP had no obvious selectivity for I kr and I ks .

Effects of IQ23 on the Repolarization and Both Components of the Delayed Rectifier Potassium Current in Guinea Pig Ventricular Myocytcs

Using patch clamp whole cell recording techiques, we examined the effects ofIQ23, a benzyl-isoquinoline derivative with antiarrhythmic activities, on the action potential （AP） andpotassium currents in single guinea pig ventricular myocytes. The results showed that IQ23 at 10, 30and 100 μmol ·L-1 slowed the repolarization in AP dose-dependently. The APD90 were prolonged by15%, 28% and 31% respectively. This effect did not depend on the extracellular Ca2+. In voltageclamp mode, IQ23 effectively blocked both the components of the delayed rectifier potassium current（Ik）, i.e., Iks and Ikr. At concentrations of 30 and 100 μmol· L-1, IQ23 suppressed Iks by 21% and 26%and suppressed Ikr by 67% and 86% respectively. But even at 100 μmol·L-1, IQ23 had little effect onthe inward rectifier potassium current （Ik1）. It is concluded: 1. IQ23 can dose-dependently prolongAPD in the ventriculas myocytes of guinea pig, the effect does not depend on the extracellular Ca2+; 2.IQ23 blocks both Iks and Ikr in the ventricular myocytes without obvious specificities between them.

Effects of Matrine on Aconitine-Induced Electrophysiological Changes in Rat Ventricular Myocytes

Aim To explore the reason that the antiarrhythmic effect of the extract oftraditional Chinese medicinal herb, matrine, is weaker than quinidine and verapamil by comparison ofthe effect and efficacy of matrine on various kinds of transmembrane ionic currents with those ofquinidine and verapamil; and to demonstrate the best targets for antiarrhythmic drugs. MethodsWhole-cell patch-clamp techniques were used to record the action potential and ionic currents insingle cells of rat ventricular myocytes. Aconitine was used to induce the changes of ioniccurrents, then study the effects of matrine and quinidine, verapamil on aconitine-induced unbalancedchannel currents and action potential. Results Aconitine 1 μmol·L^(-1) induced significantchanges in transmembrane currents and action potential in single cells of rat ventricular myocytes.APD was significantly prolonged by aconitine. Simultaneously, aconitine increased sodium, L-typecalcium and inward rectifier potassium currents. Matrine 100 μmol· L^(-1) reversed theaconitine-induced changes of sodium current (I_(Na)) from (-70.2+- 10.5) pA/pF to ( - 39.6+-4.0)pA/pF(n = 5, P < 0.05 vs aconitine); L-type calcium current (I_(Ca-L)) from (20.4+- 3.8) pA/pF to (- 12.9+- 2.9) pA/pF ( n = 6, P < 0.01); the inward rectifier potassium current (I_(k1) ) from (-32.2+- 1.08) pA/pF to ( -24.0+-3.4) pA/pF (n = 6, P < 0.01), and action potential duration. Thereversal effects of quinidine and verapamil on aconitine-induced changes of APD and ionic currentswere more marked than matrine. Conclusion Aco-nitine significantly disturbs the normal equilibriumof ion channels in ventricular myocytes. It induces changes of I_(Na), I_(Ca-L), I_(K1) andprolongation of action potential duration. Matrine at concentration 50 or 100 μmol·L^(-1)statistically significantly suppresses aconitine-induced changes of APD and ionic currents. Thepotency and efficacy of inhibitory effect of matrine are markedly weaker than those of commonly usedverapamil and quinidine.

Reduced cardiac output is associated with decreased mitochondrial efficiency in the non-ischemic ventricular wall of the acute myocardial-infarcted dog

Cardiogenic shock is the leading cause of death among patients hospitalized with acute myocardial infarction （MI）. Understanding the mechanisms for acute pump failure is therefore important. The aim of this study is to examine in an acute MI dog model whether mitochondrial bio-energetic function within non-ischemic wall regions are associated with pump failure. Anterior MI was produced in dogs via ligation of left anterior descending （LAD） coronary artery, that resulted in an infract size of about 30% of the left ventricular wall. Measurements ofhemodynamic status, mitochondrial function, free radical production and mitochondrial uncoupling protein 3 （UCP3） expression were determined over 24 h period. Hemodynamic measurements revealed a 〉 50% reduction in cardiac output at 24 h post infarction when compared to baseline. Biopsy samples were obtained from the posterior non-ischemic wall during acute infarction. ADP/O ratios for isolated mitochondria from non-ischemic myocardium at 6 h and 24 h were decreased when compared to the ADP/O ratios within the same samples with and without palmitic acid （PA）. GTP inhibition of （PA）-stimulated state 4 respiration in isolated mitochondria from the non-ischemic wall increased by 7% and 33% at 6 h and 24 h post-infarction respectively when compared to sham and pre-infarction samples. This would suggest that the mitochondria are uncoupled and this is supported by an associated increase in UCP3 expression observed on western blots from these same biopsy samples. Blood samples from the coronary sinus measured by electron paramagnetic resonance （EPR） methods showed an increase in reactive oxygen species （ROS） over baseline at 6 h and 24 h post-infarction. In conclusion, mitochondrial bio-energetic ADP/O ratios as a result of acute infarction are abnormal within the non-ischemic wall. Mitochondria appear to be energetically uncoupled and this is associated with declining pump function. Free radical production may be associated with the induction of uncoupling proteins in the mitochondria.

Ion mechanism of isoproterenol on delayed afterdepolarization and triggered activity in the infarcted ventricle

Objectives This study aimed at investigating the cellular mechanism of isoproterenol （ISO） on delayed afterdepolarizations （DADs） and triggered activity （TA） of the noninfarcted myocardium in the myocardial infarcted rabbit model.Methods Rabbits with the left anterior descending coronary artery occlusion were prepared and recovered for 8 wk （healed myocardial infarction, HMI）. Myocytes were isolated from regions of the noninfarcted left ventricular free wall. ISO was added to cellular surface by perfusion way. Action potentials and ion currents were recorded with whole-cell patch clamp. Results The results showed that treatment with ISO induced more DADs and TA events in HMI myocytes. Iti and IC,_L of myocytes treated with ISO were increased significantly compared with HMI cells, which contributed to DADs-related triggered arrhythmia. Conclusions The results suggested that more arrhythmia events of DADs and TA developed in myocytes with ISO treatment. The underlying mechanism was associated with the augment of I6 and calcium influxing

Effects of Glucose on Transmembrane Ionic Current of Ventricular Myocytes in Guinea Pig

Aim To determine the effects of glucose on APD, I_(K1) , I_K , I_(Ca-L), ofventricular myocytes in guinea pigs, Methods Whole-cell patch-clamp technique was used to record thechanged action potential ionic current induced by glucose of single cell in guinea pig ventricularmyocytes, to compare the action of 0, 10 and 20 mmol·L^(-1) glucoses on trans-membrane ioniccurrent. Results (1) Compared with 10 mmol·L^(-1) glucose concentrations, 0 and 20 mmol·L^(-1)glucose both shortened APD of ventricular myocytes ( P < 0.05). (2) The inward components ofI_(K1) density were maximal when the glucose concentration was at 10 mmol·L^(-1) . Normalized Ⅰ -Ⅴ relationships showed that both 0 and 20 mmol·L^(-1) glucose produced a left-shift of Ⅰ - Ⅴcurve. The reverse potential changed from - 72.4 mV to - 64.6 mV. (3) Compared with 10 mmol·L^(-1),both 0 and 20 mmol·L^(-1) glucose markedly increased the I_(Ca-L) amplitude and density. TheI_(Ca-L) current density was ( - 8.035 +- 0.82) pA/pF ( n = 8) at a test potential of 10 mV when theglucose concentration was 10 mmol·L^(-1) . But its current density decreased to ( - 5.45 +- 0.67)pA/pF and ( - 6.50 +- 0.56) pA/pF when glucose concentrations were 0 and 20 mmol·L^(-1) ,respectively. (4) The current densities of I_K were (18.96+-2.86) pA/pF, (8.66 +-1.87) pA/pF, and(15.32 +- 3.12) pA/pF, at + 70 mV for 0, 10 and 20 mmol·L^(-1) glucoses, respectively. ConclusionGlucose in different concentrations has different effects on APD, I_(K1), I_K, and I_(Ca-L) ofsingle ventricular myocyte in guinea pigs. There are similar actions of 0 and 20 mmol· L^(-1)glucoses on the transmembrane ionic current of ventricular myocytes in guinea pigs.

Electroacupuncture of Neiguan(PC 6) inhibits enhanced voltage-gated sodium currents in ischemic ventricular myocytes

OBJECTIVE: To examine the effect of electroacupuncture(EA) at bilateral Neiguan(PC 6) on voltage-gated Na+currents(INa) and channels(Nav) in ischemic ventricular myocytes.METHODS: EA serum was prepared from six male adult Sprague-Dawley rats that had received EA at bilateral Neiguan(PC 6). Eighteen ventricular myocytes were prepared from six SD rats using an enzymolysis approach. Myocardial ischemia was mimicked by perfusion of ischemic solution. Whole-cell patch-clamping was used to record three currents evoked from isolated cells. The first current was the control, and recorded in absence of ischemic solution current. The second was the ischemic current,and recorded after perfusion of ischemic solution for 5 min, while the EA current was last, and recorded after perfusion of EA serum for 5 min. Navkinetic curves were fitted using related formulas.RESULTS: Compared with those in controls, in the presence of ischemic solution, peak amplitudes of INasignificantly increased from ﹣40 m V to +30 m V,and half-maximal inactivation potentials of Navincreased significantly, while half-maximal activation potentials, slope factors and the recovery time from inactivation to activation of Navwere unchanged. Compared with those in the ischemic solution, in the presence of EA serum, peak ischemic current amplitudes significantly reduced from ﹣40m V to + 40 m V, and half-maximal inactivation potentials were restored, while half-maximal activation potentials, slope factors and the recovery time from inactivation to activation of Navwere unchanged.CONCLUSION: EA at bilateral Neiguan(PC 6) can reduce enhanced INavia restoration of delayed Navinactivation in ischemic ventricular myocytes.

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 Ca 2+ 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 ICaL and IK1,and increased IKr but not IKs.The results of this study can be used to explain calcium overload-induced ventricular arrhythmias.

L-type calcium current in right ventricular outflow tract myocytes of rabbit heart

The mechanism of idiopathic ventricular tachycardia originating from the right ventricular outflow tract （RVOT） is not clear. Many clinical reports have suggested a mechanism of triggered activity. However, there are few studies investigating this be- cause of the technical difficulties associated with examining this theory. The L-type calcium current （/Ca-L）, an important in- ward current of the action potential （AP）, plays an important role in arrhythmogenesis. The aim of this study was to explore differences in the APs of right ventricular （RV） and RVOT cardiomyocytes, and differences in electrophysiological character- istics of the ICa-L in these myocytes. Rabbit RVOT and RV myocytes were isolated and their AP and Ic,-L were investigated us- ing the patch-clamp technique. RVOT cardiomyocytes had a wider range of AP duration （APD） than RV cardiomyocytes, with some markedly prolonged APDs and markedly shortened APDs. The markedly shortened APDs in RVOT myocytes were abolished by treatment with 4-AP, an inhibitor of the transient outward potassium current, but the markedly prolonged APDs remained, with some myocytes with a long AP plateau not repolarizing to resting potential. In addition, early afterdepolariza- tion （EAD） and second plateau responses were seen in RVOT myocytes but not in RV myocytes. RVOT myocytes had a high- er current density for/Ca-L than RV myocytes （RVOT （13.16±0.87） pA pF-1, RV （8.59±1.97） pA pF-1; P〈0.05）. The ICa-L and the prolonged APD were reduced, and the EAD and second plateau response disappeared, after treatment with nifedipine （10 μmol L^-1）, which blocks the Ica-L. In conclusion, there was a wider range of APDs in RVOT myocytes than in RV myocytes, which is one of the basic factors involved in arrhythmogenesis. The higher current density for ICa-L is one of the factors causing prolongation of the APD in RVOT myocytes. The combination of EAD with prolonged APD may be one of the mechanisms of RVOT-VT generation.

Differential gene expression profile of Buyanghuanwu decoction in rats with ventricular remodeling post-myocardial infarction

OBJECTIVE: To investigate the effect of Buyanghuanwu decoction(BYHWD) on gene expression in ventricular remodeling post-myocardial infarction in rats.METHODS: Animal models of myocardial infarction were established by permanent ligation of the left anterior descending coronary artery. Echocardiography measurements were performed after the treatment of BYHWD(18 g·kg-1 collagen was observ·d-1) for 90 days.Myocardialed by mallory trichrome staining. Capillary density was quantified by using Factor rentially expⅧre immunohistochemical staining.Diffessed genes were explored by a short-read sequencing technology combined with a tag-based digital gene expression profiling(DGE)system. Real-time quantitative polymerase chain reaction detecting system(q PCR) was used to validate the sequencing results. After assembling the gene information from Sham, model and BYHWD groups, we constructed three DGE libraries based on each group. The sequencing of three libraries generated 66 000-73 000 unique tags, which were mapped to reference sequences for annotation of expressed genes.RESULTS: Among them, 511 and 352 differentially expressed genes were found in comparison with sham/model and model/BYHWD, respectively. Fifty-five genes exhibited reversed direction of gene expression differences between Sham/Model and Model/BYHWD groups. We found that transforming growth factor beta receptor-1, junctophilin-2,monocyte chemotactic protein 1, neuropeptide Y,arachidonate 5-Lipoxygenase, arachidonate 15-Lipoxygenase were significantly modulated, which suggested the involvement of these genes in BYHWD treatment.CONCLUSION: The DGE profiling data provide comprehensive gene expression information at the transcriptional level that could facilitate our understanding of the pharmacological mechanisms of BYHWD in ventricular remodeling post-myocardial infarction.

Effect of didrovaltrate on l-calcium current in rabbit ventricular myocytes

OBJECTIVE:To investigate the effect of didrovaltrate on L-type calcium current(I Ca-L) in rabbit ventricular myocytes.METHODS:We used the whole cell patch clamp recording technique.RESULTS:Didrovaltrate at concentrations of 30 μg/L and 100 μg/L significantly decreased peak I Ca-L(I Ca-Lmax) from(6.01±0.48) pA/pF to(3.45±0.27) pA/pF and(2.16 ± 0.19) pA/pF(42.6% and 64.1%,n=8,P< 0.01),respectively.Didrovaltrate shifted upwards the current-voltage curves of I Ca-L without changing their active,peak and reverse potentials.Didrovaltrate affected the steady-state inactivation of I Ca-L.The half activation potential(V 1/2) was significantly shifted from(-26 ± 2) to(-36 ± 3) mV(n=6,P<0.05),with a significant change in the slope factor(k)(from 8.8 ± 0.8 to 11.1 ± 0.9,n=6,P<0.05).Didrovaltrate did not affect the activation curve.CONCLUSION:Didrovaltrate blocks I Ca-L in a concentration-dependent manner and probably inhibits I Ca-L in its inactive state,which may contribute to its cardiovascular effect.