Direction-independent block of bi-directional Na+/Ca2+ exchange current by KB-R7943 in guinea-pig cardiac myocytes

1. We investigated the inhibitory effect of KB-R7943 on 'bi-directional' Na+/Ca2+ exchange current (iNCX) with the reversal potential of iNCX (ENCX) in the middle of the ramp voltage pulse employed. 2. Bi-directional iNCX was recorded with 'full' ramp pulses given every 10 s from the holding potential of -60 mV over the voltage range between 30 and -150 mV under the ionic conditions of 140 mM [Na]o, 20 mM [Na]i, 1 mM [Ca]o and 433 nM [Ca]i with calculated ENCX at -50 mV. 3. KB-R7943 (0.1 - 100 mirconM) concentration-dependently inhibited the current, which reversed near the calculated ENCX, indicating that the blocked current was iNCX. 4. The inhibition levels were not significantly different between outward and inward iNCX measured at 0 and -120 mV, respectively. IC50 of KB-R7943 was approximately 1 micronM for both directions of iNCX. 5. Under the bi-directional ionic conditions, only an outward or inward iNCX was induced by positive or negative 'half' ramp pulses, respectively, from the holding potential of -60 mV. KB-R7943 inhibited both direction of iNCX and the concentration-inhibition relations were superimposable to the ones obtained by 'full' ramp pulses. 6. These results indicate that KB-R7943 inhibits iNCX direction-independently under bi-directional conditions. This conclusion is different from that of our previous results obtained from iNCX under uni-directional ionic conditions, where KB-R7943 inhibited iNCX direction-dependently. The difference could be attributed to slow dissociation of the drug from the exchanger.     

A novel antagonist, No. 7943, of the Na+/Ca2+ exchange current in guinea-pig cardiac ventricular cells.

1. The effects of No. 7943 on the Na+/Ca2+ exchange current and on other membrane currents were investigated in single cardiac ventricular cells of guinea-pig with the whole-cell voltage-clamp technique. 2. No. 7943 at 0.1-10 microM suppressed the outward Na+/Ca2+ exchange current in a concentration-dependent manner. The suppression was reversible and the IC50 value was approximately 0.32 microM. 3. No. 7943 at 5-50 microM suppressed also the inward Na+/Ca2+ exchange current in a concentration-dependent manner but with a higher IC50 value of approximately 17 microM. 4. In a concentration-response curve, No. 7943 raised the K(m)Ca2+ value, but did not affect the Imax value, indicating that No. 7943 is a competitive antagonist with external Ca2+ for the outward Na+/ Ca2+ exchange current. 5. The voltage-gated Na+ current, Ca2+ current and the inward rectifier K+ current were also inhibited by No. 7943 with IC50S of approximately 14, 8 and 7 microM, respectively. 6. In contrast to No. 7943, 3', 4'-dichlorobenzamil (DCB) at 3-30 microM suppressed the inward Na+/Ca2+ exchange current with IC50 of 17 microM, but did not affect the outward exchange current at these concentrations. 7. We conclude that No. 7943 inhibits the outward Na+/Ca2+ exchange current more potently than any other currents as a competitive inhibitor with external Ca2+. This effect is in contrast to DCB which preferentially inhibits the inward rather than the outward Na+/Ca2+ exchange current.     

KB-R7943对豚鼠心室肌细胞Na+-Ca2+交换电流的作用

目的　观察KB-R7943对豚鼠心室肌细胞Na⁺-Ca²⁺交换电流(I_Na-Ca)的内向电流成分和外向电流成分的影响。方法　采用缺血再灌时胞内Na⁺超载的细胞模型,在同时记录内向、外向电流的双向离子条件下,用膜片钳全细胞技术,记录I_Na-Ca的电流-电压关系曲线。结果　10^-6和10^-5mol·L^-1KB-R7943,在+50mV时,对I_Na-Ca的抑制率分别是29.4%和61.7%;在-80mV时抑制率分别是22.1%和56.9%。结论　KB-R7943对豚鼠心室肌细胞I_Na-Ca有抑制作用,但对外向成分和内向成分的抑制不具选择性。     

Characterization of SN-6, a novel Na+/Ca2+ exchange inhibitor in guinea pig cardiac ventricular myocytes

We examined the effect of SN-6, a new benzyloxyphenyl Na(+)/Ca(2+) exchange (NCX) inhibitor on the Na(+)/Ca(2+) exchange current (I(NCX)) and other membrane currents in isolated guinea pig ventricular myocytes using the whole-cell voltage-clamp technique. SN-6 suppressed I(NCX) in a concentration-dependent manner. The IC(50) values of SN-6 were 2.3 microM and 1.9 microM for the outward and inward components of the bi-directional I(NCX), respectively. On the other hand, SN-6 suppressed the outward uni-directional I(NCX) more potently (IC(50) value of 0.6 microM) than the inward uni-directional I(NCX). SN-6 at 10 microM inhibited the uni-directional inward I(NCX) by only 22.4+/-3.1%. SN-6 and KB-R7943 suppressed I(NCX) more potently when intracellular Na(+) concentration was higher. Thus, both drugs inhibit NCX in an intracellular Na(+) concentration-dependent manner. Intracellular application of trypsin via a pipette solution did not change the blocking effect of SN-6 on I(NCX). Therefore, SN-6 is categorized as an intracellular-trypsin-insensitive NCX inhibitor. SN-6 at 10 microM inhibited I(Na), I(Ca), I(K) and I(K1) by about 13%, 34%, 33% and 13%, respectively. SN-6 at 10 microM shortened the action potential duration at 50% repolarization (APD(50)) by about 34%, and that at 90% repolarization (APD(90)) by about 25%. These results indicate that SN-6 inhibits NCX in a similar manner to that of KB-R7943. However, SN-6 at 10 microM affected other membrane currents less potently than KB-R7943.     

Protection of ischemic rat spinal cord white matter: Dual action of KB-R7943 on Na+/Ca2+ exchange and L-type Ca2+ channels

The effect of the Na+/Ca(2+)-exchange inhibitor KB-R7943 was investigated in spinal cord dorsal column ischemia in vitro. Oxygen/glucose deprivation at 37 degrees C for 1 h causes severe injury even in the absence of external Ca2+. KB-R7943 was very protective in the presence and absence of external Ca2+ implicating mechanisms in addition to extracellular Ca2+ influx through Na+/Ca(2+)-exchange, such as activation of ryanodine receptors by L-type Ca2+ channels. Indeed, blockade of L-type Ca2+ by nimodipine confers a certain degree of protection of dorsal column against ischemia; combined application of nimodipine and KB-R7943 was not additive suggesting that KB-R7943 may also act on Ca2+ channels. KB-R7943 reduced inward Ba2+ current with IC50 = 7 microM in tsA-201 cells expressing Ca(v)1.2. Moreover, nifedipine and KB-R7943 both reduced depolarization-induced [Ca2+]i increases in forebrain neurons and effects were not additive. Nimodipine or KB-R7943 also reduced ischemic axoplasmic Ca2+ increase, which persisted in 0Ca2+/EGTA perfusate in dorsal column during ischemia. While KB-R7943 cannot be considered to be a specific Na+/Ca2+ exchange inhibitor, its profile makes it a very useful neuroprotectant in dorsal columns by: reducing Ca2+ import through reverse Na+/Ca2+ exchange; reducing influx through L-type Ca2+ channels, and indirectly inhibiting Ca2+ release from the ER through activation of ryanodine receptors.     

Role of Na+/Ca2+ exchange in endothelin-1-induced increases in Ca2+ transient and contractility in rabbit ventricular myocytes: pharmacological analysis with KB-R7943.

1. The effects of endothelin-1 (ET-1) on intracellular Ca2+ ion level and cell contraction were simultaneously investigated in rabbit ventricular cardiac myocytes loaded with indo-1/A1. The role of Na+/Ca2+ exchange in ET-1-induced positive inotropic effect (PIE) was examined by using KB-R7943 (2-[2-[4-(4-nitrobenzyloxy)phenyl]ethyl]isothiourea methanesulphonate), a selective inhibitor of reverse mode Na+/Ca2+ exchange. 2. ET-1 at 0.3 pM - 1 nM increased cell contraction and Ca2+ transient (CaT) with EC50 values of 2.9 pM and 1.2 pM, respectively, and the increase in amplitude of CaT was much smaller relative to the PIE: ET-1 at 1 nM increased peak cell shortening by 237%, while it increased peak CaT by 167%. For a given level of PIE, ET-1-induced increase in CaT was much smaller than that induced by elevation of [Ca2+]o and by isoprenaline. Therefore, ET-1 shifted the relationship between peak CaT and cell shortening to the left relative to the relationship for increase in [Ca2+]o, an indication that ET-1 increased myofibrillar Ca2+ sensitivity. 3. KB-R7943 at 0.1 microM and higher inhibited contraction and CaT induced by 0.1 nM ET-1 and at 0.3 microM it abolished the increase in CaT while inhibiting the PIE by 48.1%. Over concentration range of 0.1-0.3 microM, KB-R7943 neither inhibited baseline contraction and CaT nor the isoprenaline-induced response, although at 1 microM and higher it had a significant inhibitory action on these responses. 4. These results indicate that in rabbit ventricular myocytes both increases in CaT and myofibrillar Ca2+ sensitivity contribute to the ET-induced PIE, and the activation of reverse mode Na+/Ca2+ exchange may play a crucial role in increase in CaT induced by ET-1 in rabbit ventricular cardiac myocytes.     

The novel Na(+)/Ca(2+) exchange inhibitor KB-R7943 also blocks native and expressed neuronal nicotinic receptors

We studied the effects of the novel Na(+)/Ca(2+) exchange inhibitor KB-R7943, 2-[2-[4-(4-nitrobenzyloxy)phenyl]ethyl]isothiourea methanesulphonate, on the native nicotinic receptors present at the bovine adrenal chromaffin cells, as well as on rat brain alpha(3)beta(4) and alpha(7) nicotinic acetylcholine receptors (AChRs) expressed in XENOPUS: oocytes. As expected, KB-R7943 blocked the Na(+)-gradient dependent (45)Ca(2+) uptake into chromaffin cells (IC(50) of 5.5 microM); but in addition, the compound also inhibited the (45)Ca(2+) entry and the increase of cytosolic Ca(2+) concentration, [Ca(2+)](c), stimulated by 5 s pulses of ACh (IC(50) of 6.5 and 1.7 microM, respectively). In oocytes expressing alpha(3)beta(4) and alpha(7) nicotinic AChRs, voltage-clamped at -60 mV, inward currents elicited by 1 s pulses of 100 microM ACh (I(ACh)) were blocked by KB-R7943 with an IC(50) of 0.4 microM and a Hill coefficient of 0.9. Blockade of alpha(3)beta(4) currents by KB-R7943 was noncompetitive; moreover, the blocker (0.3 microM) became more active as the ACh concentration increased (34 versus 66% blockade at 30 microM and 1 mM ACh, respectively). Inhibition of alpha(3)beta(4) currents by 0.3 microM KB-R7943 was more pronounced at hyperpolarized potentials. If given within the ACh pulse (10 microM), the inhibition amounted to 33, 64 and 80% in oocytes voltage-clamped at -40, -60 and -100 mV, respectively. The onset of blockade was faster and the recovery slower at -100 mV; the reverse was true at -40 mV. In conclusion, KB-R7943 is a potent blocker of nicotinic AChRs; moreover, it displays many features of an open-channel blocker at the rat brain alpha(3)beta(4) AChR. These results should be considered when KB-R7943 is to be used to study Ca(2+) homeostasis in cells expressing nicotinic AChRs and the Na(+)/Ca(2+) exchanger.     

四肽FMRFa对大鼠心室肌Na^＋／Ca^2＋交换的抑制

目的　研究四肽FMRFa对大鼠单个心室肌细胞Na /Ca2 交换的作用。方法　用膜片钳全细胞记录法测定成年大鼠心室肌细胞Na /Ca2 交换电流 (INa /Ca2 )和其他离子通道电流。结果　FMRFa对大鼠心室肌细胞INa /Ca2 呈浓度依赖性抑制 ,10 0 μmol·L-1浓度时抑制内向和外向INa /Ca2 密度分别达 6 0 1%和 5 6 5 % ,对内向电流及外向电流的IC50 分别为 2 0 μmol·L-1和 34μmol·L-1。FMRFa 5 μmol·L-1抑制INa /Ca2 内向和外向电流密度分别为 38 7%和 34 9% ,但FMRFa 5 μmol·L-1及 2 0 μmol·L-1对L型钙电流、钠电流、瞬时外向电流和内向整流钾电流均无显著抑制作用。结论　FMRFa对大鼠心室肌细胞是一个特异性Na /Ca2 交换抑制剂。     

六肽FRCRSFa对大鼠心室肌Na^＋／Ca^＋交换的抑制

AIM: To study the effect of Phe-Arg-Cys-Arg-Ser-Phe-CONH2 (FRCRSFa) on Na+/Ca2+ exchange and its specificity in rat ventricular myocytes. METHODS: Na+/Ca2+ exchange current (INa+/Ca2+) and other currents were measured using whole-cell voltage clamp technique. RESULTS: A concentration-dependent inhibition of hexapeptide FRCRSFa on Na +/Ca2+ exchange was observed in rat ventricular myocytes. IC50 of inward and outward INa+/Ca2+ were 2 and 4 micromol/L, respectively. FRCRSFa 5 micromol/L did not affect L-type Ca2+ current, voltage-gated Na+ current, transient outward K+ current, and inward rectifier K+ current. CONCLUSION: These data indicate that FRCRSFa is an available inhibitor of Na+/Ca2+ exchange with relative selectivity and m ay be valuable for studies of the Na+/Ca2+ exchange in cardiac myocytes.     

Effects of a selective inhibitor of Na+/Ca2+ exchange, KB-R7943, on reoxygenation-induced injuries in guinea pig papillary muscles

The effects of a novel agent that is reported to selectively block Ca2+ influx by Na+/Ca2+ exchange (NCX), KB-R7943, on the reoxygenation-induced arrhythmias and the recovery of developed tension after reoxygenation, were investigated in guinea pig papillary muscles. KB-R7943 dose-dependently suppressed the contracture tension during low-sodium (21.9 mM) perfusion (23+/-8% of steady-state developed tension at 10 microM vs. 56+/-11% in control; n = 6, p<0.05), but did not change action potential and contractile parameters. During the reoxygenation period after 60-min substrate-free hypoxia, KB-R7943 (10 microM) significantly decreased the incidence of arrhythmias (44 vs. 100% in control; n = 9, p <0.05) and shortened the duration of arrhythmias (16+/-11 vs. 72+/-14 s; p<0.01). KB-R7943 (10 microM) significantly enhanced the recovery of developed tension after reoxygenation (83+/-4 vs. 69+/-3% in control; p<0.05). We conclude that KB-R7943 (10 microM) selectively inhibits the reverse mode of NCX, and that it attenuates reoxygenation-induced arrhythmic activity and prevents contractile dysfunction in guinea pig papillary muscles. These results suggest that Ca2+ influx by NCX may play a key role in reoxygenation injury.     

KB-R7943. Kanebo

Kanebo is investigating KB-R7943, a Na+/Ca2+ ion exchange inhibitor, for the potential treatment of ischemia and reperfusion injury. It inhibited the outward Na+/Ca2+ exchange current (iNCX) more potently than the inward current under unidirectional flow conditions; however, inward and outward current were inhibited equally under bidirectional conditions. The drug was a competitive inhibitor to external calcium, and the inhibition was reversible with a recovery t1/2 of about 30 s. The mammalian Na+/Ca2+ exchanger forms a multigene family of homologous proteins comprising three isoforms, NCX1, NCX2 and NCX3. By examining chimeric constructs between NCX1 and NCX3 expressed in CCL39 cells, it has been demonstrated that it is the conserved internal repeat regions (alpha-1 and alpha-2) of the exchanger that are critical for the drug's action.     

KB-R7943对豚鼠心室肌细胞Na~ -Ca~(2 )交换电流的作用

目的　观察KB R7943对豚鼠心室肌细胞Na Ca2 交换电流 (INa Ca)的内向电流成分和外向电流成分的影响。方法　采用缺血再灌时胞内Na 超载的细胞模型 ,在同时记录内向、外向电流的双向离子条件下 ,用膜片钳全细胞技术 ,记录INa Ca的电流 电压关系曲线。结果　 10 -6和 10 -5mol·L-1KB R7943 ,在 5 0mV时 ,对INa Ca的抑制率分别是 2 9 4%和 6 1 7% ;在 - 80mV时抑制率分别是 2 2 1%和 5 6 9%。结论　KB R7943对豚鼠心室肌细胞INa Ca有抑制作用 ,但对外向成分和内向成分的抑制不具选择性。     

Inhibitory effect of aprindine on Na+/Ca2+ exchange current in guinea-pig cardiac ventricular myocytes

1. Using the whole-cell voltage clamp technique, the effect of aprindine on Na+/Ca2+ exchange current (I(NCX)) was examined in guinea-pig single cardiac ventricular myocytes and CCL39 fibroblasts expressing a dog cardiac Na+/Ca2+ exchanger (NCX1). 2. I(NCX) was recorded by ramp pulses from the holding potential of -60 mV with the external solution containing 140 mM Na+ and 1 mM Ca2+, and the pipette solution containing 20 mM Na+, 20 mM BAPTA and 13 mM Ca2+ (433 nM free Ca2+). 3. External application of aprindine suppressed I(NCX) in a concentration-dependent manner. The IC50 values of outward (measured at 50 mV) and inward (measured at -100 mV) I(NCX) components were 48.8 and 51.8 microM with Hill coefficients of 1.3 and 1, respectively. 4. Intracellular application of trypsin via the pipette solution did not change the blocking effect of aprindine, suggesting that aprindine does not affect the exchanger from the cytoplasmic side. 5. Aprindine inhibited I(NCX) of a mutant NCX1 with a deletion of amino acids 247 - 671 in the large intracellular domain between the transmembrane segments 5 and 6 in a similar manner to that of the wild-type, suggesting that the site of aprindine inhibition is not in the large intracellular domain of NCX1. 6. A kinetic study indicated that aprindine was cooperatively competitive with KB-R7943, another inhibitor of NCX and that aprindine was a competitive inhibitor with respect to external Ca2+. 7. We conclude that aprindine may modestly inhibit I(NCX) in a therapeutic range of concentrations (around 2.5 approximately 6.9 microM) possibly at an external or intra-membranous site of the exchanger.     

Inhibition by SEA0400, a selective inhibitor of Na+/Ca2+ exchanger, of Na+ -dependent Ca2+ uptake and catecholamine release in bovine adrenal chromaffin cells

The effects of SEA0400, a selective inhibitor of the Na(+)/Ca(2+) exchanger (NCX), on Na(+)-dependent Ca(2+) uptake and catecholamine (CA) release were examined in bovine adrenal chromaffin cells that were loaded with Na(+) by treatment with ouabain and veratridine. SEA0400 inhibited Na(+)-dependent (45)Ca(2+) uptake and CA release, with the IC(50) values of 40 and 100 nM, respectively. The IC(50) values of another NCX inhibitor KB-R7943 were 1.8 and 3.7 microM, respectively. These results indicate that SEA0400 is about 40 times more potent than KB-R7943 in inhibiting NCX working in the reverse mode. In intact cells, SEA0400 and KB-R7943 inhibited CA release induced by acetylcholine and DMPP. The IC(50) values of SEA0400 were 5.1 and 4.5 microM and the values of KB-R7943 were 2.6 and 2.1 microM against the release induced by acetylcholine and DMPP, respectively, indicating that the potency of SEA0400 is about a half of that of KB-R7943 in inhibiting the nicotinic receptor-mediated CA release. The binding of [(3)H]nicotine with nicotinic receptors was inhibited by SEA0400 (IC(50) = 90 microM) and KB-R7943 (IC(50) = 12 microM). From these results, it is concluded that unlike KB-R7943, SEA0400 has a potent and selective action on NCX in bovine adrenal chromaffin cells.     

Protective effect of KB-R7943, a novel Na+/Ca2+ exchange inhibitor, on ischemic acute renal failure in rats

The effects of KB-R7943 (2-[2-[4-(4-nitrobenzyloxy)phenyl]ethyl]isothiourea methanesulfonate), a novel Na+/Ca2+ exchange inhibitor, on ischemic acute renal failure (ARF) in rats were examined. ARF was induced by clamping the left renal pedicle for 45 min followed by reperfusion, 2 weeks after contralateral nephrectomy. Renal function was markedly diminished in ARF rats. Pretreatment with KB-R7943 (10 mg/kg, i.v.) markedly attenuated the ARF-induced renal dysfunction. Histopathological examination of the kidney of ARF rats revealed severe renal damage, which was suppressed by KB-R7943. Activation of the reverse mode of Na+/Ca2+ exchange seems to play an important role in the pathogenesis of ARF. A selective Na+/Ca2+ exchange inhibitor may be useful in cases of ARF.     

Influence of a Na+-H+ exchange inhibitor ethylisopropylamiloride, a Na+-Ca2+ exchange inhibitor KB-R7943 and their combination on the increases in contractility and Ca2+ transient induced by angiotensin II in isolated adult rabbit ventricular myocytes

In rabbit, ventricular myocytes loaded with indo-1/AM, angiotensin II (0.1 nM-0.1 microM) exerted a positive inotropic effect with a significant increase in the amplitude of Ca2+ transients. For a given increase in cell shortening, the increase in Ca2+ transients induced by angiotensin II was less than that induced by elevation of extracellular Ca2+ concentration ([Ca2+]0) or isoprenaline, an indication that both the increase in mobilization of intracellular Ca2+ ions and myofibrillar sensitivity to Ca2+ ions contribute to the positive inotropic effect of angiotensin II. The effects of angiotensin II on Ca2+ transients and cell shortening were inhibited by the AT1 receptor antagonist losartan. A Na+ -H+ exchange inhibitor EIPA [5-(N-ethyl-N-isopropyl)amiloride] at 1 and 3 microM did not affect the Ca2+ transients and cell shortening, but it inhibited the angiotensin-II-induced responses in a concentration-dependent manner more effectively than the responses to elevation of [Ca2+]0, indicating that EIPA elicited a selective inhibitory action on the effects of angiotensin II. The observation that EIPA at 10 microM abolished the positive inotropic effect of angiotensin II without a significant depression of the inotropic response to elevation of [Ca2+]0 supports the selective action of EIPA at the high concentration on the response to angiotensin II. A novel selective Na+ -Ca2+ exchange (reverse mode) inhibitor KB-R7943, 2-[2-[4-(-nitrobenzyloxy)phenyl]ethyl] isothiourea methanesulphonate, at 0.3 and 1 microM inhibited also the responses to angiotensin II more effectively than the response to elevation of [Ca2+]0; however, over the same concentration range it suppressed significantly the amplitude of Ca2+ transients and cell shortening. Combination of EIPA (3 microM) and KB-R7943 (0.3 microM), each of which attenuated partially the angiotensin-II-induced responses, abolished the positive inotropic effect and the increase in Ca2+ transients induced by angiotensin II with much less depressant effect on the responses to elevation of [Ca2+]0. Thus, these ion exchange inhibitors exerted selective actions on the respective targets. The results with these selective inhibitors indicate that the activation of Na+ -H+ exchanger and subsequent modulation of the activity of Na+ -Ca2+ exchanger may be responsible for the increase in [Ca2+]i and the myofilament Ca2+ sensitization induced by stimulation of AT1 receptors by angiotensin II in rabbit ventricular myocytes.     

Functional role of Na+/H+ exchanger in Ca2+ influx mediated via human endothelin type A receptor stably expressed in Chinese hamster ovary cells

This study examines the functional role of Na+/H+ exchanger (NHE) in Ca2+ influx mediated by human endothelin type A receptor (ET(A)R) expressed in Chinese hamster ovary (CHO) cells. Endothelin-1 (ET-1) increased extracellular acidification rate (ECAR), which was abolished by 5-(N-ethyl-N-isopropyl)amiloride (EIPA), an NHE inhibitor. EIPA and KB-R7943, a Na+/Ca2+ exchanger (NCX) inhibitor, inhibited ET-1-induced sustained increases in intracellular Ca2+ concentration ([Ca2+]i), and EIPA had no effect on [Ca2+]i after KB-R7943 treatment. ET-1-elicited sustained [Ca2+]i increase was suppressed by reducing extracellular Na+ concentration. These results suggest that possible coupling of NHE with NCX via Na+ transport is involved in ET(A)R-mediated sustained [Ca2+]i increase.     

The plasma membrane Na+/Ca2+ exchange inhibitor KB-R7943 is also a potent inhibitor of the mitochondrial Ca2+ uniporter

BACKGROUND AND PURPOSE: The thiourea derivative KB-R7943, originally developed as inhibitor of the plasma membrane Na(+)/Ca(2+) exchanger, has been shown to protect against myocardial ischemia-reperfusion injury. We have studied here its effects on mitochondrial Ca(2+) fluxes. EXPERIMENTAL APPROACH: [Ca(2+)] in cytosol, mitochondria and endoplasmic reticulum (ER), and mitochondrial membrane potential were monitored using both luminescent (targeted aequorins) and fluorescent (fura-2, tetramethylrhodamine ethyl ester) probes in HeLa cells. KEY RESULTS: KB-R7943 was also a potent inhibitor of the mitochondrial Ca(2+) uniporter (MCU). In permeabilized HeLa cells, KB-R7943 inhibited mitochondrial Ca(2+) uptake with a Ki of 5.5+/-1.3 microM (mean+/-S.D.). In intact cells, 10 microM KB-R7943 reduced by 80% the mitochondrial [Ca(2+)] peak induced by histamine. KB-R7943 did not modify the mitochondrial membrane potential and had no effect on the mitochondrial Na(+)/Ca(2+) exchanger. KB-R7943 inhibited histamine-induced ER-Ca(2+) release in intact cells, but not in cells loaded with a Ca(2+)-chelator to damp cytosolic [Ca(2+)] changes. Therefore, inhibition of ER-Ca(2+)-release by KB-R7943 was probably due to the increased feedback Ca(2+)-inhibition of inositol 1,4,5-trisphosphate receptors after MCU block. This mechanism also explains why KB-R7943 reversibly blocked histamine-induced cytosolic [Ca(2+)] oscillations in the same range of concentrations required to inhibit MCU. CONCLUSIONS AND IMPLICATIONS: Inhibition of MCU by KB-R7943 may contribute to its cardioprotective activity by preventing mitochondrial Ca(2+)-overload during ischemia-reperfusion. In addition, the effects of KB-R7943 on Ca(2+) homeostasis provide new evidence for the role of mitochondria modulating Ca(2+)-release and regenerative Ca(2+)-oscillations. Search for permeable and selective MCU inhibitors may yield useful pharmacological tools in the future.     

KB-R7943, a selective Na+/Ca2+ exchange inhibitor, protects against ischemic acute renal failure in mice by inhibiting renal endothelin-1 overproduction

We investigated whether the preischemic or postischemic treatment with KB-R7943, a novel and selective Na+/Ca2+ exchange inhibitor, has renal protective effects in mice with ischemic acute renal failure (ARF). Ischemic ARF was induced by clamping the left renal pedicle for 45 min followed by reperfusion, 2 weeks after contralateral nephrectomy. Renal function was markedly diminished 24 h after reperfusion. Preischemic treatment with KB-R7943 attenuated the ARF-induced renal dysfunction. The ischemia/reperfusion-induced renal dysfunction was also overcome by postischemic treatment with KB-R7943. Histopathologic examination of the kidneys of ARF mice revealed severe renal damage such as tubular necrosis, proteinaceous casts in tubuli, and medullary congestion. Histologically evident damage and Ca2+ deposition in necrotic tubular epithelium were improved by preischemic treatment with KB-R7943. In addition, preischemic treatment with KB-R7943 significantly suppressed the increment of endothelin-1 (ET-1) content in the kidney at 2, 6, and 24 h after reperfusion. These findings suggest that Ca2+ overload via the reverse mode of Na+/Ca2+ exchange, followed by renal ET-1 overproduction, plays an important role in the pathogenesis of the ischemia/reperfusion-induced ARF. KB-R7943 may prove to be an effective therapeutic agent for cases of ischemic ARF in humans.     

Dofetilide对成年豚鼠心室肌细胞钠钙交换的影响

目的　研究dofetilide对豚鼠心室肌细胞Na+ /Ca2 + 交换电流的影响。方法　酶法分离成年豚鼠心室肌细胞 ,全细胞膜片钳方式、斜坡电压刺激程序 (从钳制电位 - 4 0mV去极化至 +6 0mV ,然后以 90mV/s的速率超极化至 - 12 0mV)记录Na+ /Ca2 + 交换电流 (INa/Ca)及dofetilide 0 0 3～ 1 0μmol·L-1对该电流的影响。结果　dofetilide 0 0 3～ 1 0μmol·L-1浓度依赖性地增强Na+ /Ca2 + 交换外向及内向电流 ,对外向电流的EC50 (5 0 %最大效应浓度 )为 0 178μmol·L-1(95 %可信限为 0 0 4 0～ 0 787μmol·L-1) ,对内向电流的EC50 为 0 178μmol·L-1(95 %可信限为 0 0 38～ 0 84 2μmol·L-1)。结论　dofetilide对豚鼠心室肌细胞Na+ /Ca2 +交换外向及内向电流均有浓度依赖性的明显增强作用。