Use of an anaesthesia workstation barrier device to decrease contamination in a simulated operating room.

BACKGROUND.: Strategies to achieve reductions in perioperative infections have focused on hand hygiene among anaesthestists but have been of limited efficacy. We performed a study in a simulated operating room to determine whether a barrier covering the anaesthesia workstation during induction and intubation might reduce the risk of contamination of the area and possibly, by extension, the patient. METHODS.: Forty-two attending and resident anaesthetists unaware of the study design were enrolled in individual simulation sessions in which they were asked to induce and intubate a human simulator that had been prepared with fluorescent marker in its oropharynx as a marker of potentially pathogenic bacteria. Twenty-one participants were assigned to a control group, whereas the other 21 performed the simulation with a barrier device covering the anaesthesia workstation. After the simulation, an investigator examined 14 target sites with an ultraviolet light to assess spread of the fluorescent marker of contamination to those sites. RESULTS.: The difference in rates of contamination between the control group and the barrier group was highly significant, with 44.8% (2.5%) of sites contaminated in the control group vs 19.4% (2.6%) of sites in the barrier group ( P <0.001). Several key clinical sites showed significant differences in addition to this overall decrement. CONCLUSIONS.: The results of this study suggest that application of a barrier device to the anaesthesia workstation during induction and intubation might reduce contamination of the intraoperative environment.

F16357, a novel protease-activated receptor 1 antagonist, improves urodynamic parameters in a rat model of interstitial cystitis.

BACKGROUND AND PURPOSE: The aims of the present study were to characterize the role of PAR1 in rat bladder under inflammatory conditions and determine whether a selective PAR1 antagonist, F16357, can prevent the pathophysiological symptoms of cyclophosphamide-induced interstitial cystitis (IC). EXPERIMENTAL APPROACH: Immunohistochemistry, contractile activity in isolated bladder and urodynamics were determined before and after cyclophosphamide treatment. F16357 was administered intravesically during the acute phase of inflammation, and effects on PAR1 and PAR1-related bladder contraction evaluated 24 h after cyclophosphamide injection. Urodynamics and associated voided volumes were recorded 7 and 24 h after cyclophosphamide. KEY RESULTS: In control conditions, PAR1 was present only in some umbrella cells. Cyclophosphamide disrupted the urothelium and expression of PAR1 by all remaining urothelial cells. After F16357 treatment, urothelial damage was absent and PAR1 immunoreactivity similar to control tissues. Thrombin and TFLLR-NH2 induced bladder contractions. These were increased in inflammatory conditions and antagonized by F16357 in a concentration-dependent manner. In telemetric experiments, furosemide increased urine production and voiding frequency for 60 min, 7 h after cyclophosphamide injection. Intravesical administration of F16357 blocked these changes with a return to a physiological profile; 24 h after cyclophosphamide, the volume of micturition was still lower with no increase in number of micturitions. F16357 30 µM reduced the number of micturitions and improved bladder capacity, but did not affect diuresis. Under similar experimental conditions, lidocaine 2% induced comparable effects. CONCLUSIONS AND IMPLICATIONS: PAR1 is expressed in rat bladder, overactivated in inflammatory conditions and involved in bladder function and sensation. F16357 could represent an interesting candidate for IC treatment.

Antiplatelet and antithrombotic effect of F 16618, a new thrombin proteinase-activated receptor-1 (PAR1) antagonist.

BACKGROUND AND PURPOSE: New antithrombotic agents with the potential to prevent atherothrombotic complications are being developed to target receptors on platelets and other cells involved in plaque growth. The aim of this study was to investigate the antiplatelet effects of F 16618, a new non-peptidic PAR1 (thrombin receptor) antagonist. EXPERIMENTAL APPROACH: We investigated the inhibitory effect of F 16618 on human platelet aggregation ex vivo, in whole blood and washed platelets, by using a multiple-electrode platelet aggregometer based on impedance and an optical aggregometer, respectively. Its effects on whole-blood haemostasis (clot parameters) were analysed with the ROTEM thromboelastometry device and the platelet function analyser PFA-100. A guinea-pig model of arterial thrombosis was used to investigate its effects on thrombus formation in vivo. KEY RESULTS: F 16618 inhibited PAR1 agonist peptide (SFLLR-peptide)-induced washed platelet aggregation ex vivo. This effect was concentration-dependent and exhibited a competitive inhibition profile. Washed platelet aggregation, as well as P-selectin expression induced by thrombin, were significantly inhibited by 10 µM F 16618. In whole-blood experiments, 20 µM F 16618 inhibited SFLLR-induced platelet aggregation by 49%. In contrast, it had no effect on whole-blood haemostasis. In the guinea-pig model of carotid thrombosis, 0.32 mg·kg(-1) F 16618 doubled the occlusion time. CONCLUSIONS AND IMPLICATIONS: F 16618 was shown to have strong antithrombotic activity in vivo and moderate antiplatelet effects ex vivo. As these effects were not associated with major effects on physiological haemostasis, this molecule is a good antiplatelet drug candidate for use either alone or in combination with current treatments.

F 15845, a new blocker of the persistent sodium current prevents consequences of hypoxia in rat femoral artery.

BACKGROUND AND PURPOSE: The persistent sodium current is involved in myocardial ischaemia and is selectively inhibited by the newly described 3-(R)-[3-(2-methoxyphenylthio-2-(S)-methylpropyl]amino-3,4-dihydro-2H-1,5-benzoxathiepine bromhydrate (F 15845). Here, we describe the pharmacological profile of F 15845 against the effects of hypoxia in femoral arteries in vitro. EXPERIMENTAL APPROACH: Isometric tension measurement of rat isolated femoral arteries was used to characterize the protective effect of F 15845 against contraction of the vessels induced by veratrine (100 microg.mL(-1)) or hypoxia. KEY RESULTS: Rat femoral artery expressed the Na(v)1.5 channel isoform. When exposed to veratrine (100 microg.mL(-1)), vessels developed a rapid and strong contraction that was abolished by both absence of sodium and blockade of the Na(+)/Ca(++) exchanger by KB-R7943 (10 and 32 micromol.L(-1)) or treatment with F 15845. When used before veratrine exposure, the potency of F 15845 depended on the extracellular K(+) concentration (IC(50)= 11 and 0.77 micromol.L(-1) for 5 and 20 mmol.L(-1) KCl, respectively), whereas its potency was unaffected by extracellular K(+) concentration when given after veratrine. F 15845 did not affect either KCl (80 mmol.L(-1)) or phenylephrine-induced femoral artery contraction. Moreover, endothelium disruption did not affect the protective effect of F 15845 against veratrine-induced femoral artery contraction, suggesting a mechanism of action dependent on smooth muscle cells. Finally, F 15845 prevented in a concentration-dependent manner rat femoral artery contraction induced by hypoxia. CONCLUSION AND IMPLICATIONS: F 15845, a selective blocker of the persistent sodium current prevented vascular contraction induced by hypoxic conditions.

Selective inhibition of persistent sodium current by F 15845 prevents ischaemia-induced arrhythmias.

BACKGROUND AND PURPOSE: Myocardial ischaemia is associated with perturbations of electrophysiological profile of cardiac myocytes. The persistent sodium current (I(Nap)) is one of the major contributors to ischaemic arrhythmias and appears as an attractive therapeutic target. We investigated the effects of F 15845, a new anti-anginal drug on I(Nap) and in integrative models of I(Nap)-induced arrhythmias. EXPERIMENTAL APPROACH: Sodium current was investigated using patch clamp technique on wild-type and DeltaKPQ-mutated hNav1.5 channels transfected in HEK293 cells. Effects of F 15845 on action potentials (APs) were studied by the glass microelectrode technique and its anti-arrhythmic activities were investigated in ischaemia- and aconitine-induced arrhythmias in the rat. KEY RESULTS: We demonstrated that F 15845 is a potent blocker of I(Nap) acting from the extracellular side of the channel. Blockade of I(Nap) was voltage dependent and characterized by an almost pure tonic block. F 15845 shortened AP from rabbit Purkinje fibres, confirming its lack of pro-arrhythmic activity, and prevented AP lengthening induced by the I(Nap) activator veratridine. F 15845 did not affect APs from rabbit atria and guinea pig papillary muscle where I(Nap) is not functional, confirming its inability to affect other cardiac ionic currents. F 15845 was effective at preventing fatal ventricular fibrillation and ventricular tachycardia during coronary ligation without modifying heart rate and blood pressure, and dose dependently increased the dose threshold of aconitine required to induce ventricular arrhythmias. CONCLUSIONS AND IMPLICATIONS: F 15845, a novel anti-anginal drug targeting I(Nap), demonstrates new anti-arrhythmic properties which may be of therapeutic benefit against ischaemia-induced arrhythmias.

F 15845 inhibits persistent sodium current in the heart and prevents angina in animal models.

BACKGROUND AND PURPOSE: Activation of the persistent sodium current in ischaemic myocardium results in calcium overload which is toxic for the cardiomyocyte. Thus, the activity of 3-(R)-[3-(2-methoxyphenylthio-2-(S)-methylpropyl]amino-3,4-dihydro-2H-1,5 benzoxathiepine bromhydrate (F 15845), a new selective persistent sodium current blocker, in protecting against the effects of cardiac ischaemia was examined, in both in vitro and in vivo models. EXPERIMENTAL APPROACH: Electrophysiological studies using patch-clamp and conventional microlelectrode techniques, isolated perfused hearts and models of angina in anaesthetized animals were used to assess the protection afforded by F 15845 against ischaemia-induced changes. KEY RESULTS: F 15845 reduced the persistent sodium current activated by veratridine (IC(50) 1.58 x 10(-6) mol.L(-1)). F 15845 blocked voltage-gated human cardiac sodium channels in a novel, voltage-dependent manner, selectively affecting steady-state inactivation. F 15845 did not affect action potential shape and basal function of guinea pig isolated perfused hearts but did reduce ischaemia-induced diastolic contracture in this model (IC(50) 0.64 x 10(-6) mol.L(-1)). In rabbits, F 15845 given i.v. (ED(50) 0.05 mg.kg(-1)) or orally (ED(50) 0.13 mg.kg(-1)) dose-dependently and powerfully inhibited regional myocardial ischaemia-induced ST segment elevation in the absence of haemodynamic effects, implying direct cardiac activity. In dogs, F 15845 dose-dependently inhibited epicardial ST segment changes (70 +/- 8% at 0.63 mg.kg(-1)) in an experimental angina model of demand ischaemia, again without haemodynamic effects, confirming a direct anti-anginal activity. CONCLUSIONS AND IMPLICATIONS: F 15845 is a selective, potent blocker of the persistent sodium current, generated by the human Na(v)1.5 channel isoforms, and prevents cardiac angina in animal models.

Is postconditioning effective in prevention against long-lasting myocardial ischemia in the rabbit?

The goal of the study was to determine whether postconditioning protects against different ischemia durations in the rabbit. Rabbits were assigned to a 20-, 25-, 45- or 60-min coronary occlusion followed by 24-h of reperfusion. Rabbits received no further intervention (control) or were postconditioned with four cycles of 30-s occlusion and 30-s reperfusion after myocardial infarction. Plasma levels of troponin I were quantified throughout reperfusion. In control conditions, infarct sizes (% area at risk using triphenyltetrazolium chloride) after 20, 25, 45 and 60 min of coronary occlusions were 23+/-3, 51+/-4, 70+/-3 and 81+/-3 %, respectively. With 20 and 25 min occlusion, postconditioning reduced infarct size by 43+/-10 and 73+/-21 %, respectively. On the other hand, with 45 or 60 min occlusion, postconditioning had no significant effects on infarct size (61+/-3 and 80+/-2 % of area at risk). Preconditioning protocol was performed with 25- and 60-min coronary occlusion. As expected, preconditioning significantly reduced infarct size. In conclusion, in the rabbit, the cardioprotection afforded by postconditioning is limited to less than 45 min coronary occlusion.

Evidence that ranolazine behaves as a weak beta1- and beta2-adrenoceptor antagonist in the rat [correction of cat] cardiovascular system.

The clinical anti-anginal effectiveness of ranolazine is currently being evaluated. However, the mechanism of its anti-ischaemic action is still unclear. The aim of this work was to establish whether ranolazine exerts functional beta-adrenoceptor antagonist activity in the rat cardiovascular system. Radioligand binding studies were performed in rat hearts and guinea-pig lungs for beta1- and beta2-adrenoceptor affinity, respectively. Ranolazine had micromolar affinity for both beta,- and beta2-adrenoceptors (pKi5.8 and 6.3, respectively). Developed tension was measured in isolated rat left atria (electrically driven at 4 Hz) and cumulative concentration/response curves to (+/-)isoprenaline (0.01-1,000 nM) constructed. Ranolazine (0.32-10 microM) surmountably but weakly antagonised isoprenaline-induced positive inotropic responses, with an apparent pA2 of 5.85 (5.69-6.00) and a slope of -0.74 (-0.70 to -0.77). In bivagotomised, atropinised pithed rats, ranolazine per se evoked marked bradycardia at doses above 10 mg/kg i.v. (maximum variation at 80 mg/kg -125+/-15 bpm, n=6, P<0.001) by a mechanism apparently unrelated to blockade of beta1- or beta2-adrenoceptors. Cumulative incremental doses of (+/-)isoprenaline (0.63 ng/kg to 0.16 mg/kg i.v.) administered to pithed rats induced concomitant depressor and chronotropic responses. Animals received either vehicle (saline 0.9% i.v., n=12), atenolol (0.04-2.5 mg/kg i.v., n=6 per dose), ICI 118551 (0.01-0.63 mg/kg i.v., n=6 or 7 per dose), (+/-)propranolol (0.01-0.63 mg/kg i.v., n=6 per dose) or ranolazine (2.5-80 mg/kg i.v., n=6 or 7 per dose) 10 min prior to isoprenaline. Ranolazine dose-dependently and competitively antagonised isoprenaline-induced decreases in diastolic arterial pressure (DAP, dose ratio 12.2 with 80 mg/kg ranolazine) and increases in heart rate (HR, dose ratio 20.3 with 80 mg/kg ranolazine). Collectively, these results demonstrate that ranolazine behaves as a weak beta1- and beta2-adrenoceptor antagonist in the rat cardiovascular system.

Dronedarone (Sanofi-Synthélabo).

Sanofi-Synthelabo (formerly Sanofi) is developing the class III antiarrhythmic agent, dronedarone, for the potential treatment of atrial fibrillation and ventricular tachycardia [157842]. Phase III trials for the treatment of arrhythmia are planned for 2001 [399945]. By December 1998, phase IIb trials for the treatment of cardiac arrhythmia had been initiated [295681,320585], and the compound was shown to have the same efficacy as, and better tolerability than amiodarone [330073]. By 1997, the compound had entered phase IIa trials in Europe [219077,295681]. In November 1997, Sanofi expected to file for marketing in 2001/2 [270242]. ABN Amro predicted sales of FFR 50 million in 2001, rising to FFR 150 million in 2002 [317536]. Lehman Brothers predicted a 20% chance of the compound reaching market, with a launch anticipated in 2003 and potential peak sales of $200 million in 2011 [346267].

Zolmitriptan stimulates a Ca(2+)-dependent K(+) current in C6 glioma cells stably expressing recombinant human 5-HT(1B) receptors.

Stimulation of a Ca(2+)-dependent K(+) current by zolmitriptan, a 5-HT(1B/1D) receptor partial agonist, was investigated in C6 glioma cells stably expressing recombinant human 5-HT(1B) receptors. Outward K(+) currents (I(K)) were examined in non-transfected C6 glioma cells and in cells expressing cloned human 5-HT(1B) receptors using the patch-clamp technique in the whole-cell configuration. In C6 glioma cells expressing recombinant human 5-HT(1B) receptor, zolmitriptan increased I(K) in a concentration-dependent manner (maximum increase 16.3+/-7.8%, n=5, p<0.001) with a pD(2) value (geometric mean with 95% confidence intervals) of 7.03 (7.90-6.10). Zolmitriptan failed to elicit increases in I(K) in non-transfected C6 cells. In the presence of the mixed 5-HT(1B/1D) receptor antagonist, N-[4-methoxy-3-(4-methyl-1-piperazinyl)phenyl]-2(-methyl-4(5-methyl-1 ,2,4)-oxadiazol-3-yl)[1,1-biphenyl]-4-carboxamide 2HCl (GR 127935, 0. 1 mcM), zolmitriptan (1 mcM) failed to significantly increase I(K) in C6 cells expressing human 5-HT(1B) receptors confirming that zolmitriptan-evoked responses were indeed mediated by human 5-HT(1B) receptors. In C6 cells expressing cloned human 5-HT(1B) receptors, zolmitriptan-induced increases in I(K) were prevented by the calcium chelator, EGTA (5 mM) when included in the patch pipette (maximum increase -3.3+/-4.2%, n=4, P=NS). The Ca(2+)-dependent K(+) channel blockers, iberiotoxin (0.1 mcM) and tetraethylammonium (TEA, 1 mM), abolished zolmitriptan-induced increases in I(K) (4.5+/-7.3%, n=4 and -0.8+/-1.7%, n=4, respectively, P=NS in each case) in C6 cells expressing human 5-HT(1B) receptors, confirming the involvement of Ca(2+)-dependent K(+) channels. In conclusion, the 5-HT(1B/1D) receptor partial agonist, zolmitriptan, stimulates I(K/Ca) in C6 glioma cells stably transfected with human 5-HT(1B) receptors suggesting an increase of hyperpolarizing current.

Slowly inactivating component of sodium current in ventricular myocytes is decreased by diabetes and partially inhibited by known Na(+)-H(+)Exchange blockers.

Recent evidence has suggested a major role for a slowly inactivating component of Na(+)current (I(NaL)) as a contributor to ischemic Na(+)loading. The purposes of this study were to investigate veratrine and lysophosphatidylcholine (LPC)-induced I(NaL)in single ventricular myocytes of normal and diabetic rats and to analyse the effects on this current of three pharmacological agents, known as Na(+)/H(+)exchange inhibitors, whose selectivity has been questioned in several studies. A decrease in Na(+)/H(+)exchange activity has been previously shown to be associated with diabetes, and this has been found to confer some protection to the diabetic heart after an episode of ischemia/reperfusion. Recordings were made using the whole-cell patch-clamp technique. I(NaL)was stimulated either by veratrine (100 mg/ml) or by LPC (10 micromol/l) applied extracellularly. Veratrine as well as LPC-induced I(NaL)was found to be significantly decreased in ventricular myocytes isolated from diabetic rat hearts. Veratrine- and LPC-induced I(NaL)in ventricular myocytes of normal rats was significantly (in the range 10(-7)to 10(-4)mol/l) inhibited by the Na(+)/H(+)exchange blockers HOE 694, EIPA and HOE 642. HOE 694 was the most potent inhibitor, followed by the amiloride derivative EIPA and HOE 642. The sensitivity of veratrine-induced I(NaL)to inhibition by HOE 694 and EIPA was markedly reduced in diabetic ventricular myocytes, with no observed inhibition by HOE 642. These data may have important implications as to the protection that may be afforded against ischemic and reperfusion injury, especially during ischemia and when ischemia occurs in a diabetic situation.

Lubeluzole-induced prolongation of cardiac action potential in rabbit Purkinje fibres.

Lubeluzole, a novel neuroprotective compound, has been associated with cases of QT interval prolongation but its effects on the cardiac action potential have not been described to date. Thus, the electrophysiological effects of lubeluzole were studied in rabbit isolated Purkinje fibres. The results demonstrate that lubeluzole (0.001-1 microM) concentration-dependently lengthened action potential duration at 50% and 90% of repolarization (APD50 and APD90) without significantly modifying other parameters. Furthermore, APD lengthening induced by lubeluzole was not significantly decreased by reducing the basic cycle length (from 3,000 to 1,000 ms). The results demonstrate that lubeluzole potently and concentration-dependently increases APD from 0.01 microM, consistent with class III-type antiarrhythmic actions, which is likely to underlie QT interval prolongation induced by the drug.

F 11356, a novel 5-hydroxytryptamine (5-HT) derivative with potent, selective, and unique high intrinsic activity at 5-HT1B/1D receptors in models relevant to migraine.

F 11356 (4-[4-[2-(2-aminoethyl)-1H-indol-5-yloxyl]acetyl]piperazinyl-1-yl] ben zonitrile) was designed to take advantage of the superior potency and efficacy characteristics of 5-hydroxytryptamine (5-HT) compared with tryptamine at 5-HT1B/1D receptors. F 11356 has subnanomolar affinity for cloned human and nonhuman 5-HT1B and 5-HT1D receptors, and its affinity for 5-HT1A and other 5-HT receptors, including the 5-ht1F subtype, is 50-fold lower and micromolar, respectively. In C6 cells expressing human 5-HT1B or human 5-HT1D receptors, F 11356 was the most potent compound in inhibiting forskolin-induced cyclic AMP formation (pD2 = 8.9 and 9.6), and in contrast to tryptamine and derivatives, it produced maximal enhancement of [35S]guanosine-5'-O-(3-thio)triphosphate-specific binding equivalent to 5-HT. F 11356 was equipotent to 5-HT (pD2 = 7.1 versus 7.2) and more potent than tryptamine derivatives in contracting rabbit isolated saphenous vein. In isolated guinea pig trigeminal ganglion neurons, F 11356 was more potent (pD2 = 7.3 versus 6.7) and induced greater increases in outward hyperpolarizing Ca2+-dependent K+ current than sumatriptan. In anesthetized pigs, F 11356 elicited highly cranioselective, more potent (from 0.16 microgram/kg i.v.) and greater carotid vasoconstriction than tryptamine derivatives. Decreases in carotid blood flow were observed in conscious dogs from 0.63 mg/kg oral F 11356 in the absence of changes in heart rate or behavior. Oral activity was confirmed when hypothermic responses were elicited in guinea pigs (ED50 = 1.6 mg/kg), suggesting that F 11356 also accesses the brain. F 11356 thus is a selective, high-potency agonist at 5-HT1B/1D receptors, which distinguishes itself from tryptamine and derivatives in exerting high intrinsic activity at these receptors in vascular and neuronal models relevant to migraine.

Effects of sumatriptan on coronary flow and left ventricular function in the isolated perfused guinea pig heart.

The effects of the 5-HT1B/D receptor agonist, sumatriptan, on coronary flow (CF) and left ventricular function in the isolated perfused guinea pig heart were investigated in the presence and absence of coronary endothelial dysfunction induced by nitric oxide (NO) synthase inhibition with Nomega-nitro-L-arginine methyl ester (L-NAME; 10 microM). Hearts were perfused under constant pressure (80 cm H2O) with oxygenated (95% O2/5% CO2) Krebs bicarbonate buffer (pH 7.4) and were driven at 4 Hz. In the absence of L-NAME (n=37), sumatriptan (0.1-32 microM) failed statistically significantly to affect left ventricular developed pressure (LVDP; maximal change, -8.1+/-1.8%; NS vs. vehicle), left ventricular end-diastolic pressure (LVEDP; +10.4+/-9.8%, NS), or CF (-12.2+/-1.4%; NS compared with vehicle). L-NAME per se significantly reduced coronary flow (CF; -26.3+/-2.9%; p < 0.001), thereby increasing coronary vascular tone, and decreased LVDP (-17.1+/-1.8%; p < 0.01). In hearts perfused with L-NAME (10 microM; n=61), sumatriptan (0.1-32 microM) still failed significantly to affect CF (maximal change, 0.2+/-5.7%, NS) but concentration-dependently increased LVEDP [maximal increase, 89.0+/-30.3%; p < 0.05; geometric mean EC50 3.6 (2.9-5.7) microM], which was not prevented by the 5-HT1B/D receptor antagonist, GR 127935 (0.1 microM; maximal increase, 51.8+/-11.1%; n=48, NS compared with sumatriptan alone). In conclusion, sumatriptan failed significantly to affect CF even in the presence of endothelial dysfunction. LV function similarly remained unaffected in normal hearts, but sumatriptan produced diastolic contracture in the presence of coronary endothelial dysfunction by a mechanism apparently not involving 5-HT1B/D receptors. Collectively the data indicate that 5-HT1B/D receptor expression or effector coupling or both are absent or low in the guinea pig heart, because no detectable functional responses were observed.

Late sodium current inhibition in human isolated cardiomyocytes by R 56865.

R 56865, a cytoprotective agent, has been shown to prevent myocardial ischemia and reperfusion injury by blockade of the late sodium current (I(Nal)). The effect of R 56865 on I(Nal) in isolated human atrial myocytes was investigated by using the whole-cell patch-clamp technique. I(Nal) recorded at the end of a 350-ms test pulse evoked from -100 to +20 mV was significantly increased by the addition of veratrine (100 microg/ml: quantity of charge corresponding to total I(Nal): 6.1 +/- 1.2 at baseline vs. 86.9 +/- 15; p < 0.001). Tetrodotoxin (TTX; 1 microM) fully prevented veratrine-induced increases in I(Nal). R 56865 (0.1-10 microM, n = 14) significantly and reversibly decreased veratrine-induced I(Nal) (42.01 +/- 8.6%, n = 6; p < 0.001 at 10 microM). Moreover, R 56865 reduced I(Nal) without significantly affecting kinetic parameters of inactivation [tau1 = 1.04 +/- 0.1 ms and tau2 = 119.3 +/- 2.3 ms (baseline) vs. tau1 = 1.57 +/- 0.5 ms and tau2 = 134.4 +/- 14 ms in the presence of 10 microM R 56865; NS]. The data indicate that R 56865 is a potent blocker of the late inducible component of sodium current in human cardiomyocytes.

Activation of recombinant h 5-HT1B and h 5-HT1D receptors stably expressed in C6 glioma cells produces increases in Ca2+-dependent K+ current.

The putative coupling between stably expressed recombinant h 5-HT1B or h 5-HT1D receptors and K+ channels which regulate excitability was investigated in C6 glioma cells. Outward K+ currents (IK) were examined in nontransfected C6 glioma cells and in cells expressing cloned h 5-HT1B or h 5-HT1D receptors using the patch-clamp technique in the whole-cell configuration. IK was elicited by a depolarizing step from a holding potential of -60 mV. In C6 glioma cells expressing either recombinant h 5-HT1B or h 5-HT1D receptors, sumatriptan similarly increased IK in a concentration-dependent manner (maximum increase 19.4+/-7.2%, n=8, P<0.05 and 25.1+/-3.9%, n=6, P<0.001, respectively) with EC50 values (geometric mean with 95% confidence intervals in parentheses) of 56.3 nM (7.9-140 nM) and 68.7 nM (16-120 nM), respectively. Sumatriptan failed to elicit increases in IK in non-transfected cells, confirming a specific involvement of the respective membrane h 5-HT1B and h 5-HT1D receptors in transfected C6 cells. In the presence of the mixed 5-HT1B/D receptor antagonist GR 127935 (0.1 microM), sumatriptan (1 microM) failed to significantly increase IK in C6 cells expressing h 5-HT1B receptors (-7.5+/-3.5%, P=NS, n=6), although a higher concentration of GR 127935 (1 microM) was required to significantly inhibit sumatriptan-evoked increases in IK in C6 cells expressing h 5-HT1D receptors (-1.8+/-3.5%, P=NS, n=6), confirming that sumatriptan-evoked responses were indeed mediated by h 5-HT1B and h 5-HT1D receptors, respectively. In C6 cells expressing either cloned h 5-HT1B or h 5-HT1D receptors, sumatriptan-induced increases in IK were prevented by the calcium chelator EGTA (5 mM) when included in the patch pipette (maximum increase 0.57+/-0.6%, n=3, P=NS and -2.8+/-1.6%, n=5, P=NS, respectively). In C6 cells expressing cloned h 5-HT1B receptors, sumatriptan (1 microM) similarly failed to significantly increase IK in the presence of dibutyryl cAMP (10 microM) or when a nominally Ca2+-free medium was included in the patch pipette (-19.4+/-5.1%, n=5 and -5.2+/-4.3%, n=5, respectively, P=NS in each case). In addition, the Ca2+-dependent K+ channel blockers iberiotoxin (0.1 microM) and tetraethylammonium (TEA, 1 mM) abolished sumatriptan-induced increases in IK (-0.5+/-1.0%, n=4 and -3.9+/-3.1%, n=4, respectively, P=NS in each case) in C6 cells expressing h 5-HT1B receptors, confirming the involvement of Ca2+-dependent K+ channels. In C6 cells expressing cloned h 5-HT1B receptors, sumatriptan (1 microM) similarly failed to significantly increase IK after 30-min incubation with thapsigargin (1 microM) or when heparin (2 mg/ml) was included in the patch pipette (1.1+/-0.4%, n=5 and 1.2+/-2.4%, n=5, respectively, P=NS). In conclusion, evidence is provided that both recombinant h 5-HT1B and h 5-HT1D receptors stably transfected in C6 glioma cells are positively coupled to Ca2+-dependent K+ channels, and the outward hyperpolarizing current mediated by these channels is dependent upon IP3 receptor-mediated intracellular Ca2+ release.

Contribution of Na+/Ca2+ exchange to action potential of human atrial myocytes.

The Ca2+ dye indo 1 was used to record internal Ca2+ (Cai) transients in order to investigate the role of the Na+/Ca2+ exchange current (INa/Ca) in whole cell patch-clamped human atrial myocytes After the activation of the L-type Ca2+ current by test pulses (20 ms) at +20 mV, a tail current (I(tail)) was activated at a holding potential of -80 mV with a density of -1.29 +/- 0.06 pA/pF. The time course of I(tail) followed that of Cai transients I(tail) was suppressed by dialyzing cells with ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid, applying 5 mM caffeine, or substituting external Na+ with Li+, indicating that this current was mainly generated by INa/Ca. Two types of action potential were recorded: type A, which is characterized by a narrow early plateau followed by a late low plateau phase, and type B, which is characterized by a small initial peak followed by a prolonged high plateau phase. Type B action potentials were found in larger cells than type A action potentials (membrane capacitance 81.8 +/- 4.5 and 122.4 +/- 7.0 pF in types A and B, respectively, P < 0.001). Substitution of external Na+ with Li+ shortened the late plateau of the type A action potential and the prolonged plateau of the type B action potential. Suppression of Cai transients by caffeine shortens the late part of both types of action potentials, whereas its lengthening effect on the initial phase of action potentials can result from several different mechanisms. The beat-to-beat dependent relationship between Cai transients and action potentials could be mediated by Ina/Ca- Delayed afterdepolarizations were present in a significant proportion of atrial myocytes in our experimental conditions. They were reversibly suppressed by Li+ substitution for Na+, suggesting that they are generated by INa/Ca. We conclude that INa/Ca plays a major role in the development of action potentials and delayed afterdepolarizations in isolated human atrial myocytes.

HOE 694 affords protection versus veratrine contractures in rat atria by Na+ channel blockade.

We examined the effects of the benzoylguanidine derivative HOE 694, an inhibitor of Na(+)-H+ exchange, against veratrine-induced diastolic contractures and action potentials recorded in rat isolated left atria. Concentration-dependent protective effects against veratrine-contractures, in the absence of negative inotropic responses, were observed with HOE 694 (IC50 = 20.1(7.6-27.0) microM, n = 24) and with the chemically related amiloride derivatives DMA, EIPA, HMA and MIA, but not with amiloride itself. Concomitant Na(+)-H+ exchange blockade by a high concentration of amiloride (100 microM) failed to significantly modify the protective effects of HOE 694. HOE 694 decreased Vmax significantly at 10 microM (166.7 +/- 21 vs 154.7 +/- 20 V/s, P < 0.05, n = 6) without any effect on resting potential or action potential duration. High concentrations (100 microM) of HOE 694 further decreased Vmax and increased action potential duration. The protective effects of HOE 694 were compared with three of the class 1 antiarrhythmic agents, quinidine, lidocaine and flecainide against veratrine contracture. These Na+ channel blockers exerted protective effects in the same range of concentrations as HOE 694. Our findings demonstrate that HOE 694 prevents veratrine contractures at concentrations which presumably affect Na(+)-H+ exchange. However, the mechanism by which HOE 694 affords protection is apparently mediated by class 1-type Na+ channel blockade.

Investigation of the mechanism by which ketanserin prolongs the duration of the cardiac action potential.

Action potential duration (APD) lengthening is believed to underlie the cardiac arrhythmogenicity of ketanserin, a serotonin (5-HT)2A/2C receptor antagonist. We wished to determine (a) whether this activity involves blockade of 5-HT2A/2C receptors and (b) the precise mechanism of ketanserin-induced APD prolongation. APs were recorded in guinea pig isolated papillary muscles by conventional "floating" microelectrodes, and potassium currents in guinea pig isolated myocytes were recorded in the whole-cell configuration. Ketanserin (1-10 microM) increased APD (EC50 value for enhancing APD at 90% repolarization (APD90) 3.1 +/- 2.7 microM, n = 24), without affecting resting potential, maximum upstroke velocity (Vmax) or AP amplitude (APA). Pirenperone (10 microM), a ketanserin congener, similarly increased APD90 from 204 +/- 3 to 241 +/- 7 ms (p < 0.001, n = 6). No increase in APD was observed, however, with ritanserin or ICI 170809, even at high concentrations (10 microM, n = 6, respectively), two 5-HT2A/2C receptor antagonists chemically distinct from ketanserin, thereby excluding the involvement of 5-HT2A/2C receptors in mediating APD lengthening. That APD prolongation was mediated specifically by the benzolyl-piperidine moiety of ketanserin and pirenperone was confirmed by 1-propyl-4(4-fluorobenzoyl)piperidine (PFBP), which evoked APD lengthening effects remarkably similar to those produced by ketanserin and pirenperone (EC50 3.73 +/- 2.6 microM, n = 12). In isolated cardiomyocytes, ketanserin (1-32 microM) selectively and concentration-dependently reduced the IKr component of the delayed outward current (IK) without affecting the inward rectifier current, IK1. Thus, ketanserin (32 microM) significantly reduced IK at a potential value of -20 mV from 813 +/- 65 to 569 +/- 55 pA (p < 0.001, n = 6), whereas at a potential value of -110 mV, IK1 was not significantly affected (730 +/- 103 vs. 603 +/- 143 pA, respectively; n=6). The results demonstrate that APD is prolonged by ketanserin and congeners but not be chemically different 5-HT2A/2C receptor antagonists. The benzoyl-piperidine moiety appears to mediate the APD-prolonging effects of ketanserin and pirenperone specifically. Furthermore, ketanserin-induced APD lengthening does not appear to involve 5-HT2A/2C receptors but is consecutive to direct blockade of myocardial potassium channels.

Increased resistance to ischaemic injury in the isolated perfused atherosclerotic heart of the cholesterol-fed rabbit.

OBJECTIVE: In isolated, Langendorff-perfused hearts in the early stages of atherosclerosis from rabbits exposed to hypercholesterolaemia induced by 2% cholesterol feeding for 6 weeks (n = 23), and age-matched normal controls fed standard chow (n = 12), we studied baseline cardiac haemodynamics and the susceptibility of these hearts to 30 min global, normothermic ischaemia and 90 min reperfusion. METHODS: Spontaneously beating hearts were perfused with oxygenated Krebs buffer (pH 7.4) at constant pressure, and were enclosed in a thermostated water jacket at 37 degrees C. Isovolumetric left ventricular (LV) pressure was measured by means of a balloon placed in the LV cavity. An electromagnetic flow probe placed around the perfusion cannula determined coronary flow. At the end of an initial 30 min stabilisation period, several baseline cardiodynamic variables were measured, just before subjecting the hearts to 30 min ischaemia. Recovery of mechanical function and lactate dehydrogenase (LDH) and creatine phosphokinase (CPK) activities in the coronary effluent were recorded throughout 90 min reperfusion. RESULTS: Baseline spontaneous heart rate, LV developed pressure (LVDP), coronary flow and pressure-rate index (PRI) were all significantly lower in hearts from cholesterol-fed rabbits (CFR) than in age-matched controls (P < 0.01). Although large differences in several baseline haemodynamic parameters in hearts from CFR and controls were evident before ischaemia, no statistically significant differences were discernible in these parameters between the two groups from 60 min reperfusion onwards (p = NS). Furthermore, CPK and, to a lesser extent, LDH release during reperfusion was attenuated in hearts from CFR compared to controls. CONCLUSIONS: Hearts from CFR exhibited markedly improved recovery upon reperfusion compared to age-matched controls, strongly suggesting increased myocardial resistance to ischaemic injury.