Effect of cGMP on voltage-gated potassium channel in pulmonary artery smooth muscle cells from rats exposed to chronic hypoxia

AIM: To investigate the effect of cGMP on voltage-gated potassium channel in pulmonary artery smooth muscle cells (PASMCs) from rats exposed to chronic hypoxia. METHODS: (1) Wistar rats were randomly divided into control group (group A) and chronic hypoxia group (group B). Then group B received hypoxia 8 hours per day for 4 consecutive weeks. (2) Single PASMC was obtained via acute enzyme separation method. (3) Conventional whole-cell patch clamp technique was used to record resting membrane potential (Em) and ion currents of voltage-gated potassium channel. The changes of ion currents of voltage-gated potassium channel before and after applying cGMP (1 mmol/L), an agonist of protein kinase G (PKG), and cGMP plus H-8 (1 mmol/L), an inhibitor of PKG were compared between two groups. RESULTS: The Em of group B were significantly lower than that of group A. The ion currents of voltage-gated potassium channel in group A and group B were all significantly inhibited by cGMP [control group: from (118.0±5.0) pA/pF to (89.9±16.5) pA/pF, n=6, P＜0.05;chronic hypoxia group: from (81.0±5.0) pA/pF to (56.8±9.1) pA/pF, n=6, P＜0.05]and these effects were reversed by H-8 [control group: from (119.2±10.3) pA/pF to (117.8±9.1) pA/pF, n=6, P＞0.05;chronic hypoxia group: from (96.8±6.2)　pA/pF to (98.0±2.2)　pA/pF, n=6, P＞0.05]. CONCLUSIONS: The currents of voltage-gated potassium channel was inhibited by chronic hypoxic. The inhibitory effect of cGMP on currents of voltage-gated potassium channel in PASMCs from both normal and chronic hypoxic rats may be probably through the phosphorylation of voltage-gated potassium channel.     

Effects of stretch on transient outward potassium and inward rectifier potassium current in cultured neonatal rat atrial myocytes

AIM：To investigate the effects of mechanical stretch on transient outward potassium current (Ito), inward rectifier potassium current (IK1) and action potential duration(APD) of cultured neonatal rat atrial myocytes. METHODS：Neonatal rat atrial myocytes were isolated and cultured on silicone sheeting with or without stretch for 24 h. The silicone membrane area was increased by 12% in stretched group. The cells without stretch served as control. Ito, IK1 and APD were recorded by the technique of whole-cell patch clamp. RESULTS：Compared with control group, Ito density in stretched myocytes was significantly reduced ［(16±04) pA/pF vs (121±29) pA/pF, P<001］, whereas IK1 density was increased ［(-108±08) pA/pF vs (-88±09) pA/pF, P<001］. The APDs at 50% and 90% levels of repolarization (APD50 and APD90) in the stretched cells were obviously decreased than those in non-stretched cells ［(105±14) ms vs (155±24) ms, (300±28) ms vs (563±36) ms, P<001］. CONCLUSION：Stretch stimulation leads to the reduction of Ito density, the increase in IK1 density and the shortness of APD in cultured rat atrial neonatal myocytes, which may contribute to atrial electrical remodeling induced by pressure overload.     

Farrerol inhibits nicotine-induced proliferation of pulmonary vascular smooth muscle cells by enhancing Kv1.5 and Kv2.1 expression

AIM:To study the effect of farrerol (Far) on nicotine-induced proliferation of rat pulmonary smooth muscle cells (PASMCs), and further to explore its relationship with voltage-dependent potassium channels (Kv) 1.5 and Kv2.1. METHODS:Firstly, the effect of nicotine on the proliferation of PASMCs was detected by cell counting method, and the optimal concentration of nicotine was selected. Primary cultured PASMCs were randomly divided into 5 groups:normal control group, nicotine (1 μmol/L)group, nicotine (1 μmol/L) + Far (10^-6 mol/L, 10^-5 mol/L and 10^-4 mol/L) Far group. The activity of caspase-3 was measured by apoptosis kit, the cell viability was measured by CCK-8 assay, the apoptotic rate was analyzed by flow cytometry. The expression of Kv1.5 and Kv2.1, and apoptosis-related factors Bcl-2 and Bax at mRNA and protein levels was determined by RT-qPCR and Western blot respectively. RESULTS:Nicotine at 1 μmol/L increased the number of PASMCs to the maximum extent (P<0.01). Nicotine at 1 μmol/L significantly reduced the caspase-3 activity and enhanced the cell viability of the PASMCs (P<0.01). Farrerol at 10^-6~10^-4 mol/L eliminated the effect of PASMCs induced by nicotine in a concentration dependent manner. Compared with control group, nicotine at 1 μmol/L significantly increased the proliferation and inhibited the apoptotic rate of rat PASMCs (P<0.01). The apoptotic rate of PASMCs in farrerol intervention group was significantly higher than that in nicotine group (P<0.01). Nicotine at 1 μmol/L significantly inhibited the expression of Kv1.5, Kv2.1 and Bax but increased the expression of Bcl-2 in PASMCs (P<0.01). Farrerol at 10^-5 mol/L obviously inhibited the effect of PASMCs induced by nicotine. CONCLUSION:Farrerol eliminates nicotine-induced inhibition of caspase-3 and Bax, and enhancement of Bcl-2 in PASMCs by enhancing Kv1.5 and Kv2.1 expression.     

Rat urotensin-II-induced main pulmonary artery contractions are mediated by MAPK

AIM: To investigate rat Urotensin-II(rat U-II)-induced vasoconstriction of rat main pulmonary arteries and the role of mitogen-activated protein kinase(MAPK). METHODS: The main pulmonary artery was dissected from the male Sprague-Dawley rats and artery ring width was 3-4 mm. Concentration-response curves were generated to rat U-II(0.03 nmol/L-30 nmol/L).Inhibitor of MAPK, PD 98059(0.1 μmol/L-10 μmol/L) were added into the medium after rat U-II(30 nmol/L)induced vasoconstriction had reached plateau to construct the relaxant concentration-response curves and their EC₅₀ and E_max. RESULTS：Rat U-II was a potent vasoconstrictor of isolated rat main pulmonary arteries [EC₅₀=7.95±0.40, E_max=(14.28±6.34)% of the response to 60 mmol/L KCl]; PD 98059 caused concentration-dependent relaxations of rat U-II precontracted arteries [EC₅₀=5.91±0.45, E_max=(81.39±13.65)%]. CONCLUSION: Rat U-II was a potent vasoconstrictor of rat main pulmonary arteries and this response was mediated through MAPK.     

Effects of hydrogen peroxide on sodium current in acutely isolated rat hippocampal CA1 neurons

AIM and METHODS: The effects of hydrogen peroxide on Na⁺ currents were studied in freshly dissociated rat hippocampal CA1 neurons using the whole-cell patch-clamp techinique. RESULTS: ①H₂O₂ caused a dose-dependent and voltage-dependent increase in the voltage-activated Na⁺ currents. The amplitudes of Na⁺ currents were increased (48.0±4.2)% and (88. 2±5. 1)% (n=10) by H₂O₂ at 10 μmol/L and 100 μmol/L, respectively. ②H₂O₂ (10 μmol/L) did not affect the activation process, but changed the inactivation process significantly. Before and after application of 10 μmol/L of H₂O₂, the half-inactivation voltage was (-64.58±1.22)mV and (-53.55±0.94)mV (n=10, P<0.01), but the slope factor was not changed. CONCLUSION: As a product of oxidation metabolism, H₂O₂ is related to some diseases in the central nervous system.     

Effects of apelin-13 on transient sodium currents in rat ischemic ventricular myocardial cells

AIM：To investigate the effects of apelin on ventricular arrythmias and cardiac functions in rat Langendorff perfusion-simulated myocardial ischemia model by observing the changes of transient sodium currents (INa) in normal cells and the simulated ischemic cells in rat left ventricle. METHODS：Ventricular cells were enzymatically isolated by the Langendorff perfusion system. INa was recorded by the technique of whole-cell patch-clamp. Some elements in the extracellular fluid were changed to simulate the normal or ischemic status. Forty Wistar rats were divided into 4 groups：normal group, ischemic group, normal with apelin group and ischemic with apelin group. The effect of apelin-13 on INa was observed. The method of rat Langendorff perfusion was used to simulate the ischemic heart model. The ventricular arrhythmia scores and heart functional parameters were compared. The expression level of sodium channel protein,type V,alpha subunit (SCN5A) in ventricular ischemic cells was measured by Western blotting. RESULTS： Apelin-13 increased INa amplitude in both normal myocardial cells ［(-86±13） pA/pF］ and ischemic myocardial cells ［(-52±15） pA/pF］. The results of current-voltage curve analysis indicated that apelin-13 did not change the conduction velocity of INa in the 4 groups ［(3.2±0.2） pS/pF, （3.1±0.3） pS/pF,（2.9±0.1）pS/pF and （2.8±0.4） pS/pF,respectively, P>0.05］. The membrane potentials at 50% maximal activation in the 4 groups were （-21.9±0.6） mV, （-28.7±0.3） mV, （-30.5±0.7） mV and （-36.8±0.2） mV, respectively, and the slope of activation curves was 5.6±0.3, 5.1±0.4, 4.3±0.3 and 4.9±0.6 (P>0.05), respectively. No difference of ventricular arrhythmia scores between normal group and normal with apelin group, as well as between ischemic group and ischemic with apelin group was observed. LVEDP in normal with apelin group was lower than that in normal group.The dp/dtmax and dp/dtmin in normal with apelin group were higher than those in normal group. Apelin improved cardiac function parameters in the ischemic hearts. The expression of SCN5A was not affected by apelin (28.8±3.6, 29.4±4.1, 30.1±2.9 and 31.3±3.8,respectively,P>0.05). CONCLUSION：Apelin-13 changes the gating properties of sodium channel, enhances the peak INa and facilitates the opening of sodium channel without inducing ventricular arrhythmias. Apelin-13 has a positive inotropic effect on both normal and ischemic hearts.     

Effects of endogenous nitric oxide on potassium channels of bronchial smooth muscle cells from asthmatic rats

AIM: To investigate the effects of in vivo application of L-arginine on potassium channels in bronchial smooth muscle cells (BSMC) isolated from asthmatic model rats. METHODS: Male SD rats were randomly divided into control group, asthmatic group and asthmatic rats treated with L-arginine (L-Arg group). Single BSMCs were obtained by acute enzyme separation method. The resting membrane potential (Em), Ca2+-activated K+ channels (BKCa) currents and voltage-dependent K+ channel (Kv) currents in BSMCs were recorded under whole-cell patch clamp technique. RESULTS: (1) The Em of asthmatic group was significantly lower than that in control group (P<0.05). In vivo application of L-Arg significantly hyperpolarized BSMCs near to control group (P>0.05). (2) The peak current density at +50 mV of KCa: IKca in asthmatic group ［(43.8±16.5) pA/pF］ was significantly lower than that in normal group ［(72.5±19.9) pA/pF］ (P<0.01). Treatment with 300 mg/kg L-Arg significantly increased IKca in asthmatic group to (58.7±12.4) pA/pF (P<0.05). (3) The peak currents density at +50 mV of Kv: IKv in asthmatic group ［(32.4±8.7) pA/pF］ was significantly lower than that in control group ［(57.7±9.8) pA/pF］ (P<0.01). Treatment with L-Arg also significantly increased IKv in asthmatic group to (43.6±7.9) pA/pF, (P<0.05). CONCLUSION: Endogenous NO improves Em in asthmatic BSMCs, increases the activities of BKCa channels and Kv channel. These findings implicate that NO may have a potential therapeutically role in airway hypersensitivity.     

Effect of experimental acute necrotizing pancreatitis on sodium and L-type calcium current in rat cardiomyocytes

AIM: To study the effect of experimental acute necrotizing pancreatitis (ANP) on sodium and L-type calcium current in rat cardiomyocytes. METHODS: I_Na and I_Ca-L were recorded using whole cell patch-clamp techniques from left ventricular myocytes in ANP model established by retrograde injection of 3.5% sodium taurocholate 2.5 mL/kg into pancreatic duct. RESULTS: Peak I_Na current density (at -30 mV) was significantly reduced in ANP [(12.45±2.26)pA/pF,n=16] compared with sham [(25.32±3.31)pA/pF,n=14], P<0.01; I_Ca-L current density (at +10 mV) was also significantly reduced in ANP [(3.63±0.65)pA/pF,n=16] compared with sham [(5.46±1.03)pA/pF,n=12], P<0.05. CONCLUSIONS: There were changes in both I_Na and I_Ca-L in cardiomyocytes of ANP. These changes may underlie the altered excitability and abnormally short transmembrane action potentials and repolarization of cardiomyocytes, thus contributing to arrhymias in ANP.     

Effect of BQ123 on the voltage-gated K+ current of pulmonary artery smooth muscle cells of rats exposed to chronic hypoxia

AIM:To study the effect of BQ123 on voltage-gated K+ current in pulmonary artery smooth muscle cells (PASMCs) from chronic hypoxic rats. METHODS:Twelve age and body weight matched Wistar rats were randomly divided into control and chronic hypoxic group. Single PASMCs were obtained with acute enzyme (collagnaseⅠ plus papain) dispersing method. Using the whole cell patch-clamp technique in freshly isolated PASMCs from normorxic and hypoxic rats, the effects of ET-1 and BQ123, a selective ETA receptor antagonist, on voltage-gated K+ current were recorded. RESULTS:(1) ET-1 (10-8 mol·L-1) caused inhibition of K+ current in PASMCs from normoxic and hypoxic rats. The effect of ET-1 on K+ current in PASMCs from hypoxic rats was greater than that from normoxic rats ［+50 mV, percent inhibition were (71.04±6.58)% and (60.21±5.32)%, respectively, P<0.01, n=6］. (2) In normoxic PASMCs, neither BQ123 alone produced influence on the IKV (P>0.05, n=5), nor ETA receptor blockade had change of ET-1 mediated IKV inhibition. (3) In chronic hypoxic PASMCs, BQ123 significantly reduced the effect of ET-1 mediated IKV inhibition, from (28.49±6.69) pA/pF to (74.19±9.74) pA/pF at +50 mV (P<0.01, n=6). CONCLUSION:In normoxic condition, the effect of ET-1 on IKV of PASMCs is not mediated by BQ123, a selective ETA receptor antagonist. During exposure to chronic hypoxia, the inhibition of ET-1 on IKV of PASMCs is partly mediated by BQ123, namely, ETA receptor mediates the effect of ET-1 on IKV of chronic hypoxic PASMCs.     

Hypotonic challenges induce volume-activated chloride currents and regulatory volume decrease in rat embryonic myocardial H9c2 cells

AIM:To investigate the volume-activated chloride currents and regulatory volume decrease(RVD) induced by hypotonic challenges in rat embryonic myocardial cell line H9c2. METHODS:The technique of whole-cell patch-clamp was used to record the chloride currents induced by hypotonic challenges and to clarify the properties of the currents in H9c2 cells. The changes of cell volume were observed by the technique of real-time living cell imaging, and the roles of chloride channels in RVD were analyzed. RESULTS:A weak background current was recorded in H9c2 cells under isotonic condition. Extracellular application of 47% hypotonic solution rapidly activated an outward rectified current, which did not exhibit time-and voltage-dependent inactivation with the current density of(47.77±3.80) pA/pF at +80 mV and(-33.36±2.80) pA/pF at-80 mV. The reversal potential was(-9.02±0.61) mV, closed to the calculated equilibrium potential for Cl^-(-0.9 mV). The current was volume-sensitive and was completely suppressed by 47% hypertonic solution. In addition, chloride channel blockers tamoxifen(20 μmol/L), 5-nitro-2-(3-phenylpropylamino) benzoic acid(NPPB,100 μmol/L) and ATP(10 mmol/L) significantly inhibited the current with different inhibitory ratios. The phenomenon of RVD was also observed in H9c2 cells under the condition of perfusion with 47% hypotonic solution. The chloride channel blocker NPPB at concentration of 100 μmol/L completely inhibited the RVD process. CONCLUSION:The volume-activated chloride channels, which are activated by extracellular hypotonic challenges, play an important role in the process of regulatory volume decrease in H9c2 cells.     

Urotensin Ⅱinduces pulmonary arterial smooth muscle cell proliferation and up-regulates Egr-1 expression through ERK1/2 pathway in rats

AIM: To investigate the effect of urotensinⅡ (UⅡ) on the proliferation of cultured rat pulmonary arterial smooth muscle cells (PASMCs), and to explore whether mitogen-activated protein kinase (MAPK) signaling pathways and early growth response factor-1 (Egr-1) involved in the regulation of the PASMCs proliferation stimulated by UⅡ. METHODS: The rat PASMCs were isolated and cultured in vitrowith explant culture technique. The proliferation of cultured PASMCs stimulated by different doses of UⅡwas detected by BrdU incorporation. The mRNA expression of extracellular signal-regulated kinase 1/2 (ERK1/2), stress-activated protein kinase (SAPK), p38 MAPK and Egr-1 in cultured PASMCs treated with UⅡ, UⅡ-specific antagonist urantide, and ERK1/2 inhibitor PD98059 was detected by real-time PCR. The protein levels of phosphorylated ERK1/2 (p-ERK1/2), p-SAPK, p-p38 and Egr-1 in cultured PASMCs were determined by Western blotting. RESULTS: UⅡ at concentrations of 1 μmol/L, 0.1 μmol/L and 0.01 μmol/L increased the proliferation of cultured PASMCs in a dose-dependent manner (P<0.01 or P<0.05), with the maximal effect at a concentration of 1 μmol/L. However, urantide inhibited the promotion effect of UⅡ on PASMC proliferation (P<0.05). UⅡ up-regulated the mRNA expression of ERK1/2, SAPK and Egr-1 (P<0.01 or P<0.05), but not the p38 MAPK. However, the up-regulatory effect of UⅡ on ERK1/2 and Egr-1 expression was inhibited by PD98059 and/or urantide (P<0.01 or P<0.05). UⅡ also increased the protein levels of p-ERK1/2, p-SAPK and Egr-1 (P<0.01 or P<0.05), but the promotion effect was also inhibited by PD98059 and/or urantide (P<0.01 or P<0.05).CONCLUSION: UⅡ increases the proliferation of PASMCs, and U Ⅱand Egr-1 participates in UⅡ-mediated proliferation of cultured PASMCs through activation of ERK1/2 signal pathway.     

Characteristics of pacemaker current in aged rat atrial myocytes

AIM: To investigate the characteristics of pacemker current (I_f) of atrium myocytes in aged rats. METHODS: Aged SD rats (22-24 months) were used in the study. The single atrium myocytes were isolated. I_f current was recorded by the technique of whole-cell patch clamp. RESULTS: The densities of I_f increased markedly in aged rat atrium myocytes compared with that in the cells of young rats. At the test potential of-150 mV, the average amplitude of I_f was (382±23)pA and the current density was (3.2±0.4)pA/pF, while the average amplitude of I_f in control group was (86.9±8.4)pA and the current density was (0.9±0.1)pA/pF,P<0.01. I_f current was augmented at negative hyperpolarzing test potential. Time constants of activation in aged and control cells were (230.2±14.4)ms and (670.5±23.6)ms, respectively. Furthermore, steady state curves in the elder cells was shifted to positive potentials and the voltages for half maximal activation were (-87.2±2.3)mV (aged cells) and (-104.4±6.3)mV (control cells). In contrast, the slope of activation curves and reversed potential of I_f were slightly different between aged cells and control cells. CONCLUSION: The amplitude and densities of I_f in atrium cells of aged rats were larger than that of control rats.     

南瓜MSAP 体系的优化及引物筛选

以南瓜自交系北观（Cucurbita maxima）为材料，利用正交设计L₁₆（4⁵）优化南瓜MSAP 预扩增和选择性扩增体系的主要因素。结果表明，第一步最佳酶切时间2 h，Hap Ⅱ（HpaⅡ，MspⅠ）用量0.5 μL；第二步酶切时间6 h，EcoR Ⅰ用量0.4 μL；连接体系包括酶切产物21 μL，EcoR Ⅰ接头（5 μmol · L^-1）、Hap Ⅱ接头（5 μmol · L^-1）各1.0 μL，连接时间12 h，T4 DNA Ligase 用量为0.5 μL；最佳预扩增反应体系（25 μL）包含2.0 μL 连接产物，1.5 μL 10 × PCR Buffer（Mg²⁺ plus），2.0 μL dNTP（2.5 mmol · L^-1），0.6 μL Taq 酶（5 U · μL^-1），0.4 μL 上下游引物（10 μmol · L^-1）；最佳选择性扩增反应体系为预扩增产物稀释120 倍的模板4.0 μL，其他同预扩增体系。最后，利用建立好的MSAP 体系进行6% 聚丙烯酰胺凝胶电泳验证并筛选出适于南瓜MSAP 分析的36 对引物，表明优化后的MSAP 体系多态性好，体系稳定，可重复，为后续进行南瓜MSAP 分析奠定了基础。     

Dynamic changes of the concentration of nitric oxide in ischemic myocardium and its mechanism

AIM: The study was undertaken to explore the dynamic changes of the concentration of nitric oxide(NO) in ischemic myocardium and its mechanism.METHODS: In vivo myocardial ischemia of mice and in vitro perfused isolated heart of rat were used in the experiment. The effects of severity and time of ischemia on NO production, NOS activity and mRNA were examined, respectively. RESULTS: There was a considerable difference (P<0.01) in the concentration of NO between ischemia group [(9.12±1.40) μmol/L] and control group [(20.16±1.67) μmol/L] after Pit(30 U/kg) administration, and the concentration of NO of ischemic group significantly decreased [(9.17±1.33) μmol/L] compared with control group [(19.90±1.95) μmol/L] after 30 minutes of ischemia. Also, the concentration of NO after Pit(20 U/L) administration in K-H and 15 min of ischemia was (15.41±2.00) μmol/L and (15.09±2.00) μmol/L respectively in vitro, significantly lower than control group [(23.83±2.33) μmol/L and (23.63±2.52) μmol/L]. In addition, compared with control group, the number of NOS positive cells, NOS activity as well as mRNA expression in atrial muscle and ventricular muscle of ischemic group were markedly reduced, respectively. CONCLUSION: Myocardial ischemia could reduced the NO level in myocardium, down-regulation of NOS mRNA could be the possible mechanism.     

Correlation of serum uric acid level with carotid plaques and arterial stiffness in patients with essential hypertension

AIM：To study the correlation of serum uric acid (UA) level with carotid plaques and arterial stiffness in the patients with essential hypertension (EH), and to explore the predictive value of serum UA for evaluating EH preclinically. METHODS：A total of 92 patients with EH and 30 healthy individuals were enrolled. The value of UA and other indicators were detected. B-mode ultrasound examination was performed to measure the common carotid artery intima-media thickness (IMT) and the sites of plaque in the internal carotid-artery, external carotid artery and carotid bifurcations. Carotid-femoral arterial pulse wave velocity (CFPWV) was assessed by Complior atherosclerosis measurement instrument. RESULTS：The serum level of UA in the patients with EH was higher than that in control group ［(361.51±83.81） μmol/L vs (317.03±62.22) μmol/L, P<0.05］. The mean value and abnormal rate of IMT between hypertension group and control group were significant difference ［(0.69±0.14) mm vs (0.60±0.12) mm, 42.39% vs 10.00%, P<0.05］. In 92 EH patients, 45 cases had carotid plaques. These 45 cases were divided into 3 groups according to the plaque severity, among which the serum UA level had statistically significant differences ［(285.25±78.41） μmol/L, （341.19±63.99） μmol/L and （401.33±88.49） μmol/L, P< 0.05］. Compared with rigid plaque group (n=34), the serum UA level in soft plaque group (n=11) was significantly higher ［(389.00±69.45) μmol/L vs （323.03±72.71） μmol/L, P<0.05］. A stepwise multiple linear regression analysis demonstrated that age (r=0.414), systolic blood pressure (r=0.224), pulse pressure (r=0.270) and uric acid (r=0.219) were predisposed factors for higher CFPWV (P<0.05). CONCLUSION：UA is one of the risk factors causing hypertension. Serum UA level may reflect the severity and stability of carotid plaques. The increased arterial stiffness is closely related to the increased serum UA level in EH.     

Effect of selenium compounds on ROS and NO production and NOS activity in human umbilical cord mesenchymal stem cells

AIM: To investigate the effects of selenium (Se) compounds on the generation of nitric oxide (NO) and reactive oxygen species (ROS), and the activity of nitric oxide synthase (NOS) in umbilical cord mesenchymal stem cells (MSCs). METHODS: MSCs were cultured in the medium of DMEM/F12 containing 10% FBS and exposed to the compounds of selenium , selenocysteine (Se-Cys) or nano-selenium (Nano-Se) at concentrations of 0.1 μmol/L to 0.5 μmol/L. The concentration of NO and the activity of NOS in treated MSCs were detected by the method of nitrate reductase assay. The fluorescent intensity of ROS was determined by DCFH-DA probe. RESULTS: The production of NO was (18.13±6.80) μmol/L in the control MSCs,(20.93±5.68) μmol/L in the MSCs treated with Se(Ⅳ) at concentration of 0.1 μmol/L and (16.73±5.03) μmol/L in the MSCs treated with Se(Ⅳ) at concentration of 0.5 μmol/L for 24 h. The production of NO was (17.20±9.11) μmol/L (P<0.05) in the MSCs treated with Se(IV) at concentration of 0.1 μmol/L and (9.98±4.35) μmol/L (P<0.01) in the MSCs treated with Se(IV) at concentration of 0.5 μmol/L for 48 h, which was significantly lower than that in the control MSCs . No inhibitory effect of Nano-Se and Se-Cys on the production of NO in MSCs was observed. Compared with the control MSCs, Se(Ⅳ) at concentrations of 0.1 μmol/L and 0.5 μmol/L significantly inhibited the generation of ROS and the activity of NOS in MSCs at 24 h and 48 h. CONCLUSION: Se(Ⅳ) inhibits NO/ROS production and NOS activity in a dose-dependent manner in MSCs.     

Expression of hypoxia-inducible factor 1α in pulmonary tissues from patients with chronic obstructive pulmonary disease

AIM：To study the expression of hypoxia-inducible factor 1α (HIF-1α) in pulmonary tissues from patients with chronic obstructive pulmonary disease (COPD) μg/L and its effects on the pathogenesis of COPD. METHODS：Pulmonary tissues were obtained from 32 subjects (16 patients with COPD and 16 without COPD as controls) who were undergoing single or bilateral lobectomy or wedge resection for lung cancer. The specimens were obtained as far away from the cancer foci (≥8 cm) as possible. The expression of HIF-1α protein in pulmonary tissues was measured by Western blotting and enzyme-linked immunosorbent assay (ELISA). RESULTS：The expression of HIF-1α protein in pulmonary tissues from controls and COPD patients was as follows: (0.96±0.43) μg/L and (0.16±0.07) μg/L (ELISA， P<0.05); 0.71±0.22 and 0.53±0.15 (Western blotting, P<0.05). Furthermore, the level of HIF-1α protein in pulmonary tissues from mild and moderate COPD patients was obviously higher than that from severe COPD patients (P<0.05). CONCLUSION：HIF-1α may play an important role in the progress of COPD.     

Changes of potassium currents in rabbit ventricle with healed myocardial infarction

AIM: To elucidate the mechanism of arrhythmia in healed myocardial infarction (HMI), and to investigate the changes of action potential duration (APD),transient outward potassium current (I_to), delayed rectifier potassium current (I_K) and inward rectifier potassium current (I_K1) of left ventricular myocytes in noninfarcted zone of HMI. METHODS: 12 rabbits were randomly assigned in two groups: HMI group (thoracotomy and ligation of the circumflex coronary); sham-operated group (thoracotomy but no conorary ligation). 3 months after operation, whole cell patch clamp technique was used to record APD, I_to, I_K and I_K1 of ventricular myocytes in non-infarcted zone. RESULTS: Membrane capacitance was larger in HMI group than that in sham-operated group. Action potential duration was lengthened significantly in HMI group and early after depolarization (EAD) appeared in HMI group. The densities of I_to, I_K,tail and I_K1 were reduced significantly in HMI group (P<0.01), from (6.72±0.42) pA/pF, (1.54±0.13) pA/pF and (25.6±2.6) pA/pF in Sham-operated group to (4.03±0.33) pA/pF, (1.14±0.11) pA/pF and (17.6±2.3) pA/pF, respectively. CONCLUSION: The reduced densities of I_to, I_K,tail and I_K1 in ventricular myocytes of non-infarcted zone in HMI are responsible for the prolongation of APD and the presentation of EAD, which play important roles in the malignant arrhythmia of HMI.     

Effects of human urotensin II on ischemia/reperfusion injury in isolated perfused rat hearts

AIM: To investigate the effects of human urotensin II (hUII) on ischemia/reperfusion (I/R) injury in isolated rat hearts. METHODS: In the ischemia/reperfusion (I/R) model of isolated perfused rat hearts, the effects of hUII pretreatment on cardiac function was monitored with cardiac function software of MFL Lab200. ATP, total calcium, and malondialdehyde (MDA) content in myocardium were detected. The coronary perfusion flow (CPF) and lactate dehydrogenase (LDH) activity in coronary effluent were measured during reperfusion. RESULTS: In the hUII pretreated group, the release of LDH from myocardium was lower [(78.3±18.1)U/L] than I/R group [(109.3±23.9) U/L, P< 0.05], with decreased contents of MDA and calcium in myocardium (decreased by 24% and 27%, respectively, P< 0.05) and an increased myocardial ATP content [(3.8±0.4)μmol/g dw vs (2.2±0.4)μmol/g dw, P< 0.05)]. At the same time, hUII pretreatment increased CPF [(5.4±0.7) mL/min vs (3.8±0.8) mL/min in I/R group, P< 0.05], reduced left ventricular end-diastolic pressure (LVEDP) by 20% ( P< 0.05) with increased±d p /d t max [(217±38) kPa/s and (119±18) kPa/s vs (173±29) kPa/s and (82±25) kPa/s in I/R groups, respectively, P< 0.05]. hUII pretreatment also increased natrite/natrate (NO₂^-/NO₃^-) content in coronary effluent [(52.2±12.0)μmol/L vs (32.1±10.2)μmol/L in I/R group, P< 0.05)]. CONCLUSION: hUII pretreatment attenuated I/R injury in isolated perfused rat hearts. The protective mechanism might be associated with NO-mediated coronary vasodilation.     

L-carnitine inhibits H2O2-induced rat cardiomyocyte apoptosis through suppressing Ca2+/CaMKII signaling pathway

AIM：To examine the inhibitory effect of L-carnitine on hydrogen peroxide (H2O2)-induced apoptosis of rat cardiomyocytes and to further explore the underlying mechanisms. METHODS：Primarily cultured neonatal rat myocardial cells were prepared and challenged by 200 μmol/L H2O2 to induce cell apoptosis. In order to evaluate the effects of Ca2+ chelator 1,2-bis(2-aminophenoxy)ethane-N, N, N′, N′-tetraacetic acid (BAPTA), calmodulin-dependent protein kinase II (CaMKII) inhibitor KN93 and L-carnitine on cell viability, apoptosis, resting intracellular free Ca2+ concentration (［Ca2+］i) and phospho-CaMKII (p-CaMKII) expression, these three agents were added 30 min or 1 h prior to H2O2 stimulation. Cell viability was measured by MTT assay and apoptosis was determined by flow cytomertry. The ［Ca2+］i was measured by laser confocal scanning. Cleaved caspase-3 and p-CaMKII expression was detected using Western blotting. RESULTS：Upon 200 μmol/L H2O2 stimulation for 12 h, cell viability decreased and apoptotic rate increased significantly compared with control．Pretreament with L-carnitine, BAPTA and KN93 significantly increased cell viability and decreased apoptosis．Furthermore, intracellular Ca2+ overload triggered by H2O2 could be greatly relieved by L-carnitine and BAPTA pretreatment, but not affected by KN93. H2O2-stimulated cleaved caspase-3 and p-CaMKII expression was also significantly inhibited by all these three agents. CONCLUSION：L-carnitine inhibits H2O2-induced rat cardiomyocyte apoptosis possibly via suppressing Ca2+/CaMKII signaling pathway.