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1.
In heart failure (HF) a main factor in reduced contractility is reduced SR Ca2+ content and reversed force-frequency response (FFR), ie, from positive to negative. Our arrhythmogenic rabbit HF model exhibits decreased contractility mainly due to an increase in Na/Ca exchange (NCX) activity (with only modest decrease in SR Ca2+-ATPase (SERCA) function), similar to many end-stage HF patients. Here we test whether phospholamban (PLB) inhibition using a dominant-negative mutant PLB adenovirus (K3E/R14E, AdPLB-dn, with beta-galactosidase adenovirus as control) could enhance SERCA function and restore Ca2+ transients and positive FFR in ventricular myocytes from these HF rabbits. HF myocytes infected with AdPLB-dn (versus control) had enhanced Ca2+ transient amplitude (2.0+/-0.1 versus 1.6+/-0.05 F/Fo at 0.5 Hz, P<0.05) and had a positive FFR, whereas acutely isolated HF myocytes or those infected with Adbetagal had negative FFR. Ca2+ transients declined faster in AdPLB-dn versus Adbetagal myocytes (RT50%: 317+/-29 versus 551+/-90 ms at 0.5 Hz, P<0.05) and had an increased SR Ca2+ load (3.5+/-0.3 versus 2.6+/-0.2 F/Fo at 0.5 Hz, P<0.05), indicative of increased SERCA function. Furthermore, this restoration of function was not due to changes in NCX or SERCA expression. Thus, increasing SERCA activity in failing myocytes by AdPLB-dn gene transfer reversed the contractile dysfunction (and restored positive FFR) by increasing SR Ca2+ load. This approach could enhance contractile function in failing hearts of various etiologies, even here where reduced SERCA activity is not the main dysfunction.  相似文献   

2.
BACKGROUND: Pressure overload leads to cardiac hypertrophy, which is often followed by heart failure. We tested the hypothesis that depressed contractility in this process results from an imbalance in Ca 2+ transport by the sarcoplasmic reticulum (SR) Ca2+ ATPase (SERCA) and the sarcolemmal Na+/Ca2+ exchanger (NCX). METHODS AND RESULTS: Left ventricular (LV) myocytes (n = 79) from 12 normal (N) and 5 hypertrophied (LVH, by aortic banding) feline hearts were studied. Adenoviral gene transfer was used to introduce green fluorescent protein (GFP), SERCA2, and NCX into N and LVH myocytes. Contraction (videomicroscopy) and Ca2+ transients (Fluo-3) were measured in steady state and after rest periods of 2 to 120 seconds (rest decay and potentiation). LVH hearts were significantly larger than N (7.1 +/- 1.4 versus 4.2 +/- 0.2 g/kg). SERCA protein was significantly less abundant in LVH versus N. Steady state contractions and Ca2+ transients of LVH-GFP myocytes decayed more slowly and rest decay of contractility was more pronounced compared with N-GFP. Infection of LVH (and N) myocytes with SERCA increased basal contractility and reduced rest decay. Infection of LVH myocytes with NCX almost abolished contraction and in N myocytes reduced contractility and increased rest decay. CONCLUSION: These findings suggest that an imbalance of Ca2+ transport by SERCA and the NCX produces the characteristic contractile abnormalities of hypertrophied cardiac myocytes.  相似文献   

3.
In the mouse, genetic reduction in the Na(+), K(+)-ATPase alpha1 or alpha2 isoforms results in different functional phenotypes: heterozygous alpha2 isolated hearts are hypercontractile, whereas heterozygous alpha1 hearts are hypocontractile. We examined Na(+)/Ca(2+) exchange (NCX) currents in voltage clamped myocytes (pipette [Na(+)]=15 mM) induced by abrupt removal of extracellular Na(+). In wild-type (WT) myocytes, peak exchanger currents were 0.59+/-0.04 pA/pF (mean+/-S.E.M., n=10). In alpha1(+/-) myocytes (alpha2 isoform increased by 54%), NCX current was reduced to 0.33+/-0.05 (n=9, P<0.001) indicating a lower subsarcolemmal [Na(+)]. In alpha2(+/-) myocytes (alpha2 isoform reduced by 54%), the NCX current was increased to 0.89+/-0.11 (n=8, P=0.03). The peak sarcolemmal Na(+) pump currents activated by abrupt increase in [K(+)](o) to 4 mM in voltage clamped myocytes in which the Na(+) pump had been completely inhibited for 5 min by exposure to 0 [K(+)](o) were similar in alpha1(+/-) (0.86+/-0.12, n=10) and alpha2(+/-) myocytes (0.94+/-0.08 pA/pF, n=16), and were slightly but insignificantly reduced relative to WT (1.03+/-0.05, n=24). The fluo-3 [Ca(2+)](i) transient (F/F(o)) in WT myocytes paced at 0.5 Hz was 2.18+/-0.09, n=34, was increased in alpha2(+/-) myocytes (F/F(o)=2.56+/-0.14, n=24, P=0.02), and was decreased in alpha1(+/-) myocytes (F/F(o)=1.93+/-0.08, n=28, P<0.05). Thus the alpha2 isoform rather than the alpha1 appears to influence Na(+)/Ca(2+) exchanger currents [Ca(2+)](i) transients, and contractility. This finding is consistent with the proposal that alpha2 isoform of the Na pump preferentially alters [Na(+)] in a subsarcolemmal micro-domain adjacent to Na(+)/Ca(2+) exchanger molecules and SR Ca(2+) release sites.  相似文献   

4.
To clarify the correlation between intracellular Ca2+ dynamics and level of Ca2+-regulatory proteins, changes in Ca2+ handling and these proteins were investigated in a whole-heart experimental model of pressure-overload hypertrophy. We used 17-18-week-old male Dahl salt-sensitive rats (DS) and Dahl salt-resistant rats (DR) fed a high-salt diet. We monitored the fura-2 fluorescence ratio, an index of cytoplasmic Ca2+ concentration ([Ca2+]i), using a Ca2+ analyzer in a retrograde perfused heart. Left ventricular pressure (LVP) and an electrocardiogram were simultaneously recorded. Ca2+ handling was assessed by exposing the hearts to 2 min of low-Na+ (70 mmol/l) perfusion to produce an increase in [Ca2+]i (n = 6), which was sensitive to Ni2+, a blocker of the Na+/Ca2+ exchanger (NCX). In another series, the hearts were stimulated at 2.5 to 5 Hz to determine the Ca2+-force-frequency relationship (n = 6). DS rats showed marked cardiac hypertrophy without any signs of failure. The time-to-peak Ca2+ transient was prolonged in DS compared with that in DR during normal beating. During low-Na+ exposure, the time-to-peak diastolic [Ca2+]i (TTP) and the decay-time from peak [Ca2+]i (DT) were prolonged in DS compared with DR (TTP, 43.3 +/- 4.0 vs. 32.5 +/- 2.5 s, p < 0.05; DT, 70.0 +/- 8.8 vs. 29.2 +/- 2.7 s, p < 0.005). Following pretreatment with 10 mmol/l caffeine to inhibit sarcoplasmic reticulum (SR) function, TTP and DT were still prolonged in DS compared with DR (TTP, 64.2 +/- 9.7 vs. 37.0 +/- 5.8 s, p < 0.05; DT, 55.8 +/- 12.6 vs. 26.0 +/- 5.7 s, p < 0.05). The force (LVP)-frequency relationship was initially positive in DR but was negative at all times in DS (%LVP/2.5 Hz: DS, 90.3 +/- 2.0%; DR, 112.2 +/- 4.5%; p < 0.05). Elevation of diastolic [Ca2+]i (percent increase of baseline) was greater in DS than in DR with increased stimulation (5 Hz: DS, 80.7 +/- 6.7%; DR, 52.1 +/- 5.9%; p < 0.05). In Western blot analysis, the protein level of NCX was equivalent, whereas that of SR Ca2+ ATPase (SERCA2) was significantly decreased in DS compared with DR. These results suggest that slowing of cellular Ca2+ mobilization and removal is related to impaired Ca2+ handling in late-phase cardiac hypertrophy. Both the activity of the NCX and that of the SR may be affected. The SR dysfunction may be associated with change in protein level of SERCA2.  相似文献   

5.
Ca2+/calmodulin-dependent protein kinase II (CaMKII) delta is the predominant cardiac isoform, and the deltaC splice variant is cytoplasmic. We overexpressed CaMKIIdeltaC in mouse heart and observed dilated heart failure and altered myocyte Ca2+ regulation in 3-month-old CaMKIIdeltaC transgenic mice (TG) versus wild-type littermates (WT). Heart/body weight ratio and cardiomyocyte size were increased about 2-fold in TG versus WT. At 1 Hz, twitch shortening, [Ca2+]i transient amplitude, and diastolic [Ca2+]i were all reduced by approximately 50% in TG versus WT. This is explained by >50% reduction in SR Ca2+ content in TG versus WT. Peak Ca2+ current (ICa) was slightly increased, and action potential duration was prolonged in TG versus WT. Despite lower SR Ca2+ load and diastolic [Ca2+]i, fractional SR Ca2+ release was increased and resting spontaneous SR Ca2+ release events (Ca2+ sparks) were doubled in frequency in TG versus WT (with prolonged width and duration, but lower amplitude). Enhanced Ca2+ spark frequency was also seen in TG at 4 weeks (before heart failure onset). Acute CaMKII inhibition normalized Ca2+ spark frequency and ICa, consistent with direct CaMKII activation of ryanodine receptors (and ICa) in TG. The rate of [Ca2+]i decline during caffeine exposure was faster in TG, indicating enhanced Na+-Ca2+ exchange function (consistent with protein expression measurements). Enhanced diastolic SR Ca2+ leak (via sparks), reduced SR Ca2+-ATPase expression, and increased Na+-Ca2+ exchanger explain the reduced diastolic [Ca2+]i and SR Ca2+ content in TG. We conclude that CaMKIIdeltaC overexpression causes acute modulation of excitation-contraction coupling, which contributes to heart failure.  相似文献   

6.
SERCA2a is the cardiac-specific isoform of Ca2+-ATPase of the sarcoplasmic reticulum (SR). A reduction of SERCA2a has been implicated in the contractile dysfunction of heart failure, and partial knockout of the SERCA2 gene (Atp2a2+/- mice) reiterated many of the features of heart failure. Yet, mice with a mutation of Atp2a2, resulting in full suppression of the SERCA2a isoform and expression of the SERCA2b isoform only (SERCA2b/b), showed only moderate functional impairment, despite a reduction by 40% of the SERCA2 protein levels. We examined in more detail the Ca2+ handling in isolated cardiac myocytes from SERCA2b/b. At 0.25 Hz stimulation, the amplitude of the [Ca2+]i transients, SR Ca2+ content, diastolic [Ca2+]i, and density of ICaL were comparable between WT and SERCA2b/b. However, the decline of [Ca2+]i was slower (t1/2 154+/-7 versus 131+/-5 ms; P<0.05). Reducing the amplitude of the [Ca2+]i transient (eg, SR depletion), removed the differences in [Ca2+]i decline. In contrast, increasing the Ca2+ load revealed pronounced reduction of SR Ca2+ uptake at high [Ca2+]i. There was no increase in Na+-Ca2+ exchange protein or function. Theoretical modeling indicated that in the SERCA2b/b mouse, the higher Ca2+ affinity of SERCA2b partially compensates for the 40% reduction of SERCA expression. The lack of SR depletion in the SERCA2b/b may also be related to the absence of upregulation of Na+-Ca2+ exchange. We conclude that for SERCA isoforms with increased affinity for Ca2+, a reduced expression level is better tolerated as Ca2+ uptake and storage are impaired only at higher Ca2+ loads.  相似文献   

7.
End-stage heart failure is believed to involve depressed cardiomyocyte contractility and Ca2+ transients. However, the time course of these alterations is poorly understood. We examined alterations in myocyte excitation-contraction coupling in a mouse model of early congestive heart failure (CHF) following myocardial infarction. One week after myocardial infarction was induced by ligation of the left coronary artery, CHF mice were selected based on established criteria (increased left atrial diameter, increased lung weight). Sham-operated animals (SHAM) served as controls. Echocardiographic measurements showed decreased global function in early CHF relative to SHAM, but increased local function in viable regions of the myocardium which deteriorated with time. Cardiomyocytes isolated from the non-infarcted septum also exhibited larger contractions in early CHF than SHAM (CHF=219.6+/-15.3% of SHAM values, P<0.05; 1 Hz field stimulation), and relaxation was more rapid (time to 50% relaxation=82.9+/-5.5% of SHAM values, P<0.05). Ca2+ transients (fluo-4 AM) were larger and decayed more rapidly in CHF than SHAM during both field stimulation (1 Hz) and voltage-clamp steps. Sarcoplasmic reticulum (SR) Ca2+ content was increased. Western blots showed that while SR Ca2+ ATPase (SERCA) expression was unaltered in CHF, phospholamban (PLB) was downregulated (60+/-11% of SHAM values, P<0.05). Thus, an increased SERCA/PLB ratio in CHF may promote SR Ca2+ re-uptake. Additionally, peak L-type Ca2+ current and Na+/Ca2+ exchanger expression were increased in CHF, suggesting increased sarcolemmal Ca2+ flux. Thus, in early CHF, alterations in Ca2+ homeostasis improve cardiomyocyte contractility which may compensate for loss of function in the infarction area.  相似文献   

8.
心力衰竭家兔心肌细胞钙调控蛋白表达的异常   总被引:3,自引:1,他引:2  
目的探讨心力衰竭(心衰)心肌细胞钙调控蛋白表达异常的临床意义。方法 16只家兔随机分为两组,假手术组和心衰组各8只。通过超容量负荷联合压力负荷建立家兔心衰模型,利用心导管术和心脏多普勒观察手术前后家兔血流动力学及心脏结构和功能的变化。采用蛋白免疫印迹(Western blot)法测定心肌组织 L 型钙通道(LTCC)、肌浆网钙释放通道(RyR2)、肌浆网钙泵(SERCA2a)以及钠钙交换体(NCX)表达水平。结果家兔心衰组与假手术组相比,左室/体重比值、心率、左室舒张末压明显增加(P<0.01);左室短轴缩短率[(21.3±4.00)%与(36.5±1.36)%]和左室射血分数(0.45±0.07与0.70±0.02)降低(P<0.01);心肌组织 LTCC、RyR2表达下降(R_(LTCC/actin):0.287±0.029与0.624±0.009,R_(RyR2/actin):0.106±0.001与0.203±0.011,P<0.01);SERCA2a、NCX 表达增加(R_(NCX/actin:0.497±0.015与0.221±0.014,R_(SERCA2a/actin:0.611±0.036与0.433±0.008,P<0.01)。结论 LTCC 和 RyR2表达下调是心衰心肌收缩力降低的因素之一,而心衰早期 SERCA2a、NCX 表达增加可能有利于心肌舒缩功能的保持。  相似文献   

9.
Increases in Ca2+ influx through the L-type Ca2+ channel (LTCC, Cav1.2) augment sarcoplasmic reticulum (SR) Ca2+ loading and the amplitude of the cytosolic Ca2+ transient to enhance cardiac myocyte contractility. Our hypothesis is that persistent increases in Ca2+ influx through the LTCC cause apoptosis if the excessive influx results in SR Ca2+ overload. Feline ventricular myocytes (VMs) in primary culture were infected with either an adenovirus (Ad) containing a rat Cav1.2 beta2a subunit-green fluorescent protein (GFP) fusion gene (Adbeta2a) to increase Ca2+ influx or with AdGFP as a control. Significantly fewer beta2a-VMs (21.4+/-5.6%) than GFP-VMs (99.6+/-1.7%) were viable at 96 hours. A fraction of beta2a-VMs (20.8+/-1.8%) contracted spontaneously (SC-beta2a-VMs), and viability was significantly correlated with the percentage of SC-beta2a-VMs. Higher percentages of apoptotic nuclei, DNA laddering, and cytochrome C release were detected in beta2a-VMs. This apoptosis was prevented with pancaspase or caspase-3 or caspase-9 inhibitors. L-type calcium current (I(Ca-L)) density was greater in beta2a-VMs (23.4+/-2.8 pA/pF) than in GFP-VMs (7.6+/-1.6 pA/pF). SC-beta2a-VMs had higher diastolic intracellular Ca2+ (Indo-1 ratio: 1.1+/-0.1 versus 0.7+/-0.03, P<0.05) and systolic Ca2+ transients (1.89+/-0.27 versus 0.80+/-0.08) than GFP-VMs. Inhibitors of Ca2+ influx, SR Ca2+ uptake and release, mitochondrial Ca2+ uptake, mitochondrial permeation transition pore, calpain, and Bcl-2-associated X protein protected beta2a-VMs from apoptosis. These results show that persistent increases in Ca2+ influx through the I(Ca-L) enhance contractility but lead to apoptosis through a mitochondrial death pathway if SR Ca2+ overload is induced.  相似文献   

10.
Prolongation of the Ca2+ transient and action potential (AP) durations are two characteristic changes in myocyte physiology in the failing human heart. The hypothesis of this study is that Ca2+ influx via reverse mode Na+/Ca2+ exchanger (NCX) or via L-type Ca2+ channels directly activates contraction in failing human myocytes while in normal myocytes this Ca2+ is transported into the sarcoplasmic reticulum (SR) to regulate SR Ca2+ stores. METHODS: Myocytes were isolated from failing human (n=6), nonfailing human (n=3) and normal feline hearts (n=9) and whole cell current and voltage clamp techniques were used to evoke and increase the duration of APs (0.5 Hz, 37 degrees C). Cyclopiazonic acid (CPA 10(-6) M), nifedipine (NIF;10(-6) M) and KB-R 7943 (KB-R; 3x10(-6) M) were used to reduce SR Ca2+ uptake, Ca2+ influx via the L-type Ca2+ current and reverse mode NCX, respectively. [Na+)i was changed by dialyzing myocytes with 0, 10 and 20 mM Na(+) pipette solutions. RESULTS: Prolongation of the AP duration caused an immediate prolongation of contraction and Ca2+ transient durations in failing myocytes. The first beat after the prolonged AP was potentiated by 21+/-5 and 27+/-5% in nonfailing human and normal feline myocytes, respectively (P<0.05), but there was no significant effect in failing human myocytes (+5+/-4% vs. steady state). CPA blunted the potentiation of the first beat after AP prolongation in normal feline and nonfailing human myocytes, mimicking the failing phenotype. NIF reduced steady state contraction in feline myocytes but the potentiation of the first beat after AP prolongation was unaltered (21+/-3% vs. base, P<0.05). KB-R reduced basal contractility and abolished the potentiation of the first beat after AP prolongation (2+/-1% vs. steady state). Increasing [Na+]i shortened AP, Ca2+ transient and contraction durations and increased steady state and post AP prolongation contractions. Dialysis with 0 Na+ eliminated these effects. CONCLUSIONS: Ca2+ enters both normal and failing cardiac myocytes during the late portion of the AP plateau via reverse mode NCX. In (normal) myocytes with good SR function, this Ca(2+) influx helps maintain and regulate SR Ca2+ load. In (failing) human myocytes with poor SR function this Ca2+ influx directly contributes to contraction. These studies suggest that the Ca2+ transient of the failing human ventricular myocytes has a higher than normal reliance on Ca2+ influx via the reverse mode of the NCX during the terminal phases of the AP.  相似文献   

11.
OBJECTIVES: The objective of the present study was to determine whether improved contractility after left ventricular assist device (LVAD) support reflects altered myocyte calcium cycling and changes in calcium-handling proteins. BACKGROUND: Previous reports demonstrate that LVAD support induces sustained unloading of the heart with regression of pathologic hypertrophy and improvements in contractile performance. METHODS: In the human myocardium of subjects with heart failure (HF), with non-failing hearts (NF), and with LVAD-supported failing hearts (HF-LVAD), intracellular calcium ([Ca(2+)](i)) transients were measured in isolated myocytes at 0.5 Hz, and frequency-dependent force generation was measured in multicellular preparations (trabeculae). Abundance of sarcoplasmic reticulum Ca(2+) adenosine triphosphatase (SERCA), Na(+)/Ca(2+) exchanger (NCX), and phospholamban was assessed by Western analysis. RESULTS: Compared with NF myocytes, HF myocytes exhibited a slowed terminal decay of the Ca(2+) transient (DT(terminal), 376 +/- 18 ms vs. 270 +/- 21 ms, HF vs. NF, p < 0.0008), and HF-LVAD myocytes exhibited a DT(terminal) that was much shorter than that observed in HF myocytes (278 +/- 10 ms, HF vs. HF-LVAD, p < 0.0001). Trabeculae from HF showed a negative force-frequency relationship, compared with a positive relationship in NF, whereas a neutral relationship was observed in HF-LVAD. Although decreased SERCA abundance in HF was not altered by LVAD support, improvements in [Ca(2+)](i) transients and frequency-dependent contractile function were associated with a significant decrease in NCX abundance and activity from HF to HF-LVAD. CONCLUSIONS: Improvement in rate-dependent contractility in LVAD-supported failing human hearts is associated with a faster decay of the myocyte calcium transient. These improvements reflect decreases in NCX abundance and transport capacity without significant changes in SERCA after LVAD support. Our results suggest that reverse remodeling may involve selective, rather than global, normalization of the pathologic patterns associated with the failing heart.  相似文献   

12.
BACKGROUND: Reduced myocardial contractility is often attributed to altered Ca(2+) transients and expression of Ca(2+)-ATPase of the SR (SERCA) and Na+/Ca(2+)exchanger (NCX) genes. AIMS: To assess myocardial expression of SERCA and NCX protein levels in left ventricular (LV) remodelling due to chronic severe mitral regurgitation (MR). METHODS: Myocardial expression of SERCA/NCX in biopsy specimens obtained during mitral surgery was assessed in 36 MR patients with LV remodelling and plasma neurohumoral/cytokine activation and in four non-failing hearts (NFH). RESULTS: Myocardial protein levels of SERCA were significantly (20%) lower in the MR group than in NFH group (p=0.016). No significant changes in NCX were observed. However, a lack of homogeneity with regard to SERCA/NCX proteins was observed. Moreover, SERCA was negatively correlated with BNP (r=-0.49, p=0.02), TNFalpha (r=-0.68, p=0.0005) and IL-6 (r=-0.52, p=0.02), whereas NCX was only negatively correlated with TNFalpha (r=-0.62, p=0.002). CONCLUSIONS: MR patients showed wide variations in SERCA/NCX protein expression. Myocardial protein levels of SERCA were significantly lower in the MR population. Moreover, a correlation between BNP, cytokines (IL-6, TNFalpha) and the expression of SERCA/NCX proteins was observed.  相似文献   

13.
The normally positive force- and Ca2+ -frequency responses (FFR and CaFR) are inverted in heart failure (HF); whether oxidative stress contributes to these abnormalities is unknown. We evaluated the impact of acute and prolonged oxidative stress on contraction and Ca2+ handling in adult rat cardiomyocytes. Acute (30 min) exposure to H2O2 (100 microM) induced a twofold increase (P<0.025) in intracellular oxyradicals together with contractile depression despite preservation of the Ca2+ transient and the FFR and CaFR to 3 Hz, indicating reduced myofilament Ca2+ responsiveness. In contrast, prolonged (24 h) exposure to the copper-zinc superoxide dismutase inhibitor diethyldithiocarbamic acid (DDC, 1 microM) similarly augmented oxyradicals but also increased cell size, and contraction and Ca2+ transient duration (P<0.025). DDC-treated myocytes displayed inverted FFRs and attenuated (though still positive) CaFRs as compared to control, indicating reduced myofilament Ca2+ responsiveness coupled with altered Ca2+ handling. Protein levels of the Na+ -Ca2+ exchanger (NCX), sarcoplasmic reticular (SR) Ca2+ ATPase (SERCA2), and serine-16 phosphorylated phospholamban (pSer16-PLB) were increased (P<0.025), whereas dihydropyridine receptor abundance was decreased. Total PLB and ryanodine receptor protein expression were unchanged. Caffeine-induced Ca2+ release showed increased NCX activity (P<0.025) without changes in total releasable SR Ca2+, suggesting compensatory changes in SERCA2 and pSer16-PLB to maintain SR Ca2+ load. The superoxide scavenger Tiron attenuated these effects. Thus, acute oxyradical exposure rapidly depresses myofibrillar Ca2+ responsiveness. Prolonged oxidative stress further induces alterations in Ca2+ handling that combined with extant reductions in myofibrillar responsiveness invert the FFR. With regard to Ca2+ handling, reduced transsarcolemmal Ca2+ flux rather than reduced SR Ca2+ uptake was the primary determinant of a negative FFR. Analogous changes may be operative in HF, a state characterized by both oxidative stress and Ca2+ dysregulation.  相似文献   

14.
Block of Na/Ca exchange (NCX) has potential therapeutic applications, in particular, if a mode-selective block could be achieved, but also carries serious risks for disturbing the normal Ca2+ balance maintained by NCX. We have examined the effects of partial inhibition of NCX by SEA-0400 (1 or 0.3 micromol/L) in left ventricular myocytes from healthy pigs or mice and from mice with heart failure (MLP-/-). During voltage clamp ramps with [Ca2+](i) buffering, block of reverse mode block was slightly larger than of forward mode (by 25+/-5%, P<0.05). In the absence of [Ca2+](i) buffering and with sarcoplasmic reticulum (SR) fluxes blocked, rate constants for Ca2+ influx and Ca2+ efflux were reduced to the same extent (to 36+/-6% and 32+/-4%, respectively). With normal SR function the reduction of inward NCX current (I(NCX)) was 57+/-10% (n=10); during large caffeine-induced Ca2+ transients, it was larger (82+/-3%). [Ca2+](i) transients evoked during depolarizing steps increased (from 424+/-27 to 994+/-127 nmol/L at +10 mV, P<0.05), despite a reduction of I(CaL) by 27%. Resting [Ca2+](i) increased; there was a small decrease in the rate of decline of [Ca2+](i). SR Ca2+) content increased more than 2-fold. Contraction amplitude of field-stimulated myocytes increased in healthy myocytes but not in myocytes from MLP-/- mice, in which SR Ca2+ content remained unchanged. These data provide proof-of-principle that even partial inhibition of NCX results in a net gain of Ca2+. Further development of NCX blockers, in particular, for heart failure, must balance potential benefits of I(NCX) reduction against effects on Ca2+ handling by refining mode dependence and/or including additional targets.  相似文献   

15.
目的研究培哚普利在心力衰竭(心衰)治疗中对心肌细胞的收缩特性、钙瞬变及其调控蛋白的影响。方法通过缩窄雄性Wistar大鼠的腹主动脉,制成压力负荷增高性心衰模型。随机分成培哚普利治疗组(培哚普利组,3mg·kg-1·d-1)、心衰对照组和假手术对照组(假手术组)。12周后分离左室心肌细胞,测定单个心肌细胞在电刺激时的缩短分数、钙瞬变以及钠-钙交换蛋白(NCX1)、内质网Ca2+-ATPase(SERCA2)、受磷蛋白等钙调控蛋白的转录与翻译水平。结果心肌细胞的缩短分数(FS)和[Ca2+]imax在心衰对照组均明显低于假手术组[FS(%):7.51±1.15与13.21±1.49,[Ca2+]imax(nmol/L):330.85±50.05与498.16±14.07;均为P<0.01]。给予培哚普利治疗后,培哚普利组的FS和[Ca2+]imax分别为(10.89±1.18)%和(488.72±22.27)nmol/L,明显高于心衰对照组(均为P<0.01)。在心衰对照组,NCX1和受磷蛋白的mRNA水平显著高于假手术组,而SERCA2的mRNA却明显低于假手术组。在培哚普利组,其NCX1和SERCA2的mRNA水平则介于心衰对照组和假手术组之间,差异有统计学意义(均为P<0.05)。在心衰对照组及培哚普利组,NCX1的蛋白表达量分别是假手术组的(1.141±0.047)倍(P<0.01)和(1.074±0.081)倍(P=0.018),SERCA2的表达量则是假手术组的(0.803±0.100)倍(P<0.01)和(0.893±0.084)倍(P=0.003)。结论培哚普利抗心衰治疗能够减轻心肌细胞的钙瞬变及其调控蛋白的异常变化,使心衰中单个心肌细胞的收缩特性得到保护。  相似文献   

16.
The predominant cardiac Ca2+/calmodulin-dependent protein kinase (CaMK) is CaMKIIdelta. Here we acutely overexpress CaMKIIdeltaC using adenovirus-mediated gene transfer in adult rabbit ventricular myocytes. This circumvents confounding adaptive effects in CaMKIIdeltaC transgenic mice. CaMKIIdeltaC protein expression and activation state (autophosphorylation) were increased 5- to 6-fold. Basal twitch contraction amplitude and kinetics (1 Hz) were not changed in CaMKIIdeltaC versus LacZ expressing myocytes. However, the contraction-frequency relationship was more negative, frequency-dependent acceleration of relaxation was enhanced (tau(0.5Hz)/tau(3Hz)=2.14+/-0.10 versus 1.87+/-0.10), and peak Ca2+ current (ICa) was increased by 31% (-7.1+/-0.5 versus -5.4+/-0.5 pA/pF, P<0.05). Ca2+ transient amplitude was not significantly reduced (-27%, P=0.22), despite dramatically reduced sarcoplasmic reticulum (SR) Ca2+ content (41%; P<0.05). Thus fractional SR Ca2+ release was increased by 60% (P<0.05). Diastolic SR Ca2+ leak assessed by Ca2+ spark frequency (normalized to SR Ca2+ load) was increased by 88% in CaMKIIdeltaC versus LacZ myocytes (P<0.05; in an multiplicity-of-infection-dependent manner), an effect blocked by CaMKII inhibitors KN-93 and autocamtide-2-related inhibitory peptide. This enhanced SR Ca2+ leak may explain reduced SR Ca2+ content, despite measured levels of SR Ca2+-ATPase and Na+/Ca2+ exchange expression and function being unaltered. Ryanodine receptor (RyR) phosphorylation in CaMKIIdeltaC myocytes was increased at both Ser2809 and Ser2815, but FKBP12.6 coimmunoprecipitation with RyR was unaltered. This shows for the first time that acute CaMKIIdeltaC overexpression alters RyR function, leading to enhanced SR Ca2+ leak and reduced SR Ca2+ content but without reducing twitch contraction and Ca2+ transients. We conclude that this is attributable to concomitant enhancement of fractional SR Ca2+ release in CaMKIIdeltaC myocytes (ie, CaMKII-dependent enhancement of RyR Ca2+ sensitivity during diastole and systole) and increased ICa.  相似文献   

17.
We investigated the hypothesis that increased intracellular [Na+]i in heart failure contributes to preservation of SR Ca2+ load which may become particularly evident at slow heart rates. [Na+]i in SBFI-loaded myocytes from rabbits with pacing-induced heart failure (PHF) was significantly higher at each frequency as compared to Sham-operated animals. Furthermore, PHF rabbits demonstrated reduced SR Ca2+-ATPase protein levels (-37%, p < 0.04) but unchanged Na+/Ca2+ exchanger protein levels. At 0.25 Hz, isometric force was similar in cardiac trabeculae from PHF rabbits as compared to control (PHF, 3.6+/-1.3; Sham, 4.4+/-0.6 mN/mm2). Rapid cooling contractures (RCCs) were unchanged indicating preserved SR Ca2+ load at this frequency. In Sham, isometric twitch force increased with rising frequencies to 29.0+/-2.8 mN/mm2 at 3.0 Hz (p < 0.05) as compared to 0.25 Hz. RCCs showed a parallel increase by 186+/-47% (p < 0.01). In PHF, frequency-dependent increase in force (15.8+/-4.7 mN/mm2 at 3.0 Hz) and RCCs (increase by 70+/-40%) were significantly blunted. Thus, in PHF in rabbits SR Ca2+ load is preserved at low frequencies despite decreased SR Ca2+-ATPase expression. This may result from [Na+]i-dependent changes in Na+/Ca2+ exchanger activity.  相似文献   

18.
Myocardial generation of insulin-like growth factor-1 (IGF-1) is altered in hypertrophy and heart failure, but there are no reports on acute functional effects of IGF-1 in human cardiac muscle. We examined inotropic responses and signal transduction mechanisms of IGF-1 in human myocardium. Experiments were performed in isolated trabeculae or cardiomyocytes from 46 end-stage failing hearts. The effect of IGF-1 (0.001 to 0.2 micromol/L) on isometric twitch force (37 degrees C, 1 Hz), intracellular Ca2+ transients (aequorin method), sarcoplasmic reticulum (SR) Ca2+ content (rapid cooling contractures), L-type Ca2+ current (whole-cell voltage clamp), and cAMP concentrations was assessed. In addition, the effects of blocking IGF-1 receptors, phosphoinositide 3-kinase (PI3-kinase), protein kinase C (PKC), or transsarcolemmal Ca2+ entry were tested. IGF-1 exerted concentration-dependent positive inotropic effects (twitch force increased to maximally 133+/-4% of baseline values at 0.1 micromol/L; P<0.05). The IGF-1 receptor antibody alphaIR3 or the PI3-kinase inhibitor wortmannin prevented the functional effects. The inotropic response was paralleled by increases in Ca2+ transients and SR Ca2+ content. IGF-1 (0.1 micromol/L) increased L-type Ca2+ current amplitude by 24+/-7% (P<0.05). Blockade of SR function did not affect the inotropic response to IGF-1. In contrast, L-type Ca2+ channel blockade with diltiazem partially prevented ( approximately 50%) the inotropic response to IGF-1. Inhibition of PKC (GF109203X), Na+-H+ exchange (HOE642), or reverse-mode Na+-Ca2+ exchange (KB-R7943) reduced the response to IGF-1 by approximately 60% to 70%. IGF-1 exerts Ca2+-dependent positive inotropic effects through activation of IGF-1 receptors and a PI3-kinase-dependent pathway in failing human myocardium. The increased [Ca2+]i with IGF-1 originates from both enhanced L-type Ca2+ currents and enhanced Na+-H+ exchange-dependent reverse-mode Na+-Ca2+ exchange. These nongenomic functional effects of IGF-1 may be of clinical relevance.  相似文献   

19.
Post-rest contractile response was studied in isolated ventricular muscle from rats aged 1 to 90 days. Amplitude of rapid cooling contractures (RCC) was taken as an index of the sarcoplasmic reticulum (SR) Ca2+ content. We observed that: (a) developed tension (per cross-section area) increased with age; (b) time to peak twitch force and relaxation half-time decreased from 87+/-6 to 56+/-2 ms and from 68+/-6 to 36+/-1 ms, respectively, from the neonatal period to adulthood; (c) post-rest twitch potentiation was observed at all ages, with greater relative potentiation in younger preparations, although relative potentiation of [Ca2+]i transient amplitude was similar in young and adult isolated ventricular myocytes; (d) rest did not significantly affect the amplitude of RCC in muscle or caffeine-evoked [Ca2+]i transients in myocytes at any studied age; (e) favoring Ca2+ efflux via Na+-Ca2+ exchange (NCX) during rest reversed twitch potentiation and caused a similar decrease in RCC amplitude ( approximately 40%) at all ages; (f) stimulation of Ca2+ influx via NCX during rest increased RCC amplitude ( approximately 40%) only in immature preparations. However, when this procedure was repeated after partial SR Ca2+ depletion, increase in RCC amplitude was not significantly age-dependent. We conclude that post-rest twitch potentiation is already present early after birth and does not require rest-dependent changes in SR Ca2+ content at any studied age. Our results suggest that NCX is close to equilibrium during rest in both adult and developing rat myocardium, and does not seem to mediate diastolic net Ca2+ fluxes which may affect the SR Ca2+ content.  相似文献   

20.
Reduced Ca(2+) release from the sarcoplasmic reticulum (SR) and a negative force-frequency relation characterize end-stage human heart failure. The MLP(-/-) mouse with dilated cardiomyopathy is used as a model to explore novel therapeutic interventions but the alterations in Ca(2+) handling in MLP(-/-) remain incompletely understood. We studied [Ca(2+)](i) in left ventricular myocytes from MLP(-/-) and WT mice (3-4 months old; whole-cell voltage clamp, 30 degrees C). At 1 Hz stimulation, the amplitude of [Ca(2+)](i) transients was similar. However, in contrast to WT, at higher frequencies the [Ca(2+)](i) transient amplitude declined in MLP(-/-) and there was no increase in SR Ca(2+) content. Unexpectedly, the decline of [Ca(2+)](i) was faster in MLP(-/-) than in WT (at 1 Hz, tau of 80 +/- 9 vs. 174 +/- 29 ms, P < 0.001) and the frequency-dependent acceleration of the decline was abolished suggesting an enhanced basal SERCA activity. Indeed, the Ca(2+) affinity of SR Ca(2+) uptake in homogenates was higher in MLP(-/-), with the maximal uptake rate similar to WT. Phosphorylation of phospholamban in MLP(-/-) was increased (2.3-fold at Ser(16) and 2.9-fold at the Thr(17) site, P < 0.001) with similar SERCA and total phospholamban protein levels. On increasing stimulation frequency to 4 Hz, WT, but not MLP(-/-), myocytes had a net gain of Ca(2+), suggesting inadequate Ca(2+) sequestration in MLP(-/-). In conclusion, increased baseline phosphorylation of phospholamban in MLP(-/-) leads to a reduced reserve for frequency-dependent increase of Ca(2+) release. This represents a novel paradigm for altered Ca(2+) handling in heart failure, underscoring the importance of phosphorylation pathways.  相似文献   

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