Inhibitory effect of tetrahydropalmatine on calcium current in isolated cardiomyocyte of guinea pig

AIM: To study the effect of tetrahydropalmatine (THP) on calcium channels in ventricular single cells of guinea pig heart. METHODS: Patch-clamp technique (whole cell recording) was used to observe calcium current in ventricular myocytes. RESULTS: THP decreased ICa in ventricular myocytes with a dose and frequency-dependent manner. THP (0.1, 1, and 10 mumol.L-1) decreased ICa from 1.15 +/- 0.22, 0.91 +/- 0.18, and 1.60 +/- 0.42 nA (control) to 0.9 +/- 0.21 (P < 0.01), 0.56 +/- 0.21 (P < 0.01), and 0.83 +/- 0.21 nA (P < 0.05), respectively, number of cells is five in each group (n = 5), and the rates of the depression of ICa were 22%, 38%, and 48%, respectively. The effect was easily reduced by washing the cell with the Tyrode's solution. The current-voltage relation curve showed that the potential producing peak value of ICa was 0 mV at which THP had the most markedly inhibited action on ICa. When the stimulating frequency was changed, ICa varied in a frequency-dependent manner 5 min after THP was given, and the inhibition of THP was stronger at 2 Hz than that at 0.1 Hz. CONCLUSION: THP possessed a Ca2+ channel blocking effect.     

Stereospecific effect of bupivacaine isomers on atrioventricular conduction in the isolated perfused guinea pig heart

BACKGROUND: The local anesthetic bupivacaine is an equal mixture of two optically active isomers known to exert different cardiotoxic profiles in vivo. Enantiomer-specific forms of bupivacaine may have differential effects on cardiovascular function, specifically on cardiac electrophysiology. The authors' aim was to determine if there were any direct functional differences in the cardiac effects of bupivacaine isomers. The isolated heart was used to avoid possible indirect cardiac effects of bupivacaine, such as autonomic nervous and hormonal influences, as well as preload and afterload factors. METHODS: The hearts of 12 ketamine-anesthetized guinea pigs were perfused with Krebs-Ringer's solution (97% oxygen, 3% carbon dioxide) at constant perfusion pressure using the Langendorff technique. Atrial and ventricular bipolar electrodes were placed to measure heart rate (HR) and atrioventricular (AV) conduction time. Left ventricular pressure (LVP), coronary flow, and inflow and outflow oxygen tensions were also measured. Oxygen delivery, oxygen consumption (MVO2), and percentage of oxygen extraction were calculated. Each heart was perfused with increasing randomized concentrations (0.5, 1, 5, 10 microM) of both isomers and the racemate of bupivacaine. RESULTS: Racemic and isomeric bupivacaine equally and dose dependently decreased cardiac function. At 10 microM bupivacaine these changes were HR, -17 +/- 2%; LVP, -50 +/- 3%; coronary flow, -20 +/- 4%; and MVO2, -46 +/- 4%. The (+) isomer significantly prolonged AV conduction compared with the racemate and the (-) isomer at all concentrations. At 10 microM, AV time was 54 +/- 6% longer with the (+) isomer and 30 +/- 4% longer with the (+/-) racemate than with the (-) isomer. The greater delay in AV time with the (+) than the racemate or (-) isomer led to a second-degree AV dissociation in 10 of 12 of hearts treated with (+) bupivacaine. CONCLUSIONS: This study shows that bupivacaine has an enatiomer-specific effect to delay AV conduction and to produce second-degree AV dissociation in the isolated perfused heart. This suggests that bupivacaine isomers probably have differential effects on one or more ion-specific channels regulating AV conduction. Other measured direct cardiac effects of bupivacaine appear to be independent of the isomeric form.     

AM630 is a competitive cannabinoid receptor antagonist in the guinea pig brain

AM630 has been demonstrated to be a cannabinoid receptor antagonist in the mouse brain and vas deferens. Conversely, it was recently reported that AM630 acts as a cannabinoid agonist in the guinea pig ileum. This research was designed to determine whether the difference in the action of AM630 is species specific. Studies conducted in guinea pig brain reveal that AM630 antagonizes the stimulatory effect of the cannabinoid agonist WIN 55,212-2 on [35S]GTPgammaS binding suggesting that difference in AM630 activity in different tissues is not due to species variation.     

Reduced calcium current density in single myocytes isolated from hypertrophied failing guinea pig hearts

The present study explored the possibility that an alteration in the transmembrane calcium current (ICa), through its ability to modulate Ca2+ release from the sarcoplasmic reticulum, could contribute to the depressed peak [Ca2+]i we previously observed in hypertrophied failing myocardium. Whole-cell patch clamp was used to measure ICa in single guinea pig ventricular myocytes isolated from hearts of normal guinea pigs and from guinea pig hearts in which hypertrophy and failure were induced by gradually developing left ventricular pressure overload subsequent to ascending aortic banding of young animals. Membrane capacitance (Cm) was significantly greater. and ICa, normalized for Cm, was significantly lower in myocytes from hypertrophied failing hearts. Myocytes from hypertrophied failing hearts did not differ significantly from normal myocytes in terms of the voltage-dependence of the activation variable (d) of ICa (except at -30 mV), the time course of removal of inactivation of ICa, and the time constant of decay of ICa. Measurement of the voltage dependence of the inactivation variable (f) of ICa showed that significantly more steady-state inactivation was present at 0, -10, and -20 mV in myocytes from hypertrophied failing hearts. Multiple regression analysis of all data indicated that ICa density decreased with increasing myocyte membrane area (as reflected by Cm) irrespective of any specific effects of hypertrophy and heart failure. We conclude that ICa, normalized for Cm, is significantly reduced in myocytes isolated from hypertrophied failing hearts, probably by a process associated with increased cell size, per se.     

Spectral analysis of electrocardiogram signals of the isolated guinea pig heart for the detection of arrhythmias

Fast Fourier Transform analysis of the electrocardiogram (ECG) signal of the isolated guinea pig heart has been used to investigate the subtle ECG changes that precede cardiac arrhythmias. During prolonged periods of regular contractile activity, spectral analysis of the isolated guinea pig heart ECG revealed that the major frequency components were evenly distributed over the range 0-64 Hz. Prior to arrhythmias or during ischaemia however, there was a major reduction in the amplitude of the higher frequency components. Thus, Fast Fourier Transform analysis of an ECG record enables the detection of the subtle ECG configuration changes that precede cardiac rhythm disturbances. The potential application of this technique for the prediction of cardiac arrhythmias is discussed.     

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

IBD is associated with an increased activation of intestinal immune cells, which causes overproduction of proinflammatory cytokines such as IL-1beta. IL-1beta is implicated in mediating the sustained inflammatory response. IL-1 receptor antagonist (IL-1Ra), the naturally occurring inhibitor of IL-1, has been shown to have beneficial effects in experimental models of colitis. In this study we investigated the hypothesis that an imbalance between IL-1 and IL-1Ra exists in IBD by measuring their secretion by explant cultures of colonic biopsies. Freshly homogenized biopsies from involved tissue in IBD patients exhibited significantly lower IL-1Ra/IL-1beta ratios than control and uninvolved IBD mucosal tissue. Using explant cultures, in vitro production of IL-1beta and IL-1Ra increased progressively during the 4-18-h culture periods. IL-1beta secretion was higher in supernatants from involved Crohn's disease (CD) and ulcerative colitis tissue compared with control tissue, and IL-1beta levels increased with severity of inflammation. IL-1Ra secretion was not elevated in involved IBD samples, but significantly higher levels were released when moderate to severely involved tissue samples were compared with noninflammatory controls. Similar to freshly homogenized tissue, explant studies showed that the IL-1Ra/IL-1beta ratios were significantly decreased in involved IBD tissue, but not in uninvolved CD or inflammatory control specimens. These data support the hypothesis of an imbalance between IL-1beta and IL-1Ra in IBD.     

Trypsin and forskolin decrease the sensitivity of L-type calcium current to inhibition by cytoplasmic free calcium in guinea pig heart muscle cells

A key feature of trypsin action on ionic membrane currents including L-type Ca2+ current (ICa) is the removal of inactivation upon intracellular application. Here we report that trypsin also occludes the resting cytoplasmic free Ca2+ ([Ca2+]i)-induced inhibition of peak ICa in isolated guinea pig ventricular cardiomyocytes, using the whole-cell patch clamp in combination with the Fura-2 ratio-fluorescence technique. The effectiveness of trypsin to guard ICa against [Ca2+]i-induced inhibition was compared with that of forskolin, as cAMP-dependent phosphorylation had been suggested to confer protection against [Ca2+]i-induced inactivation. Intracellular dialysis of trypsin (1 mg/ml) augmented ICa by 7.2-fold, significantly larger than the threefold increase induced by forskolin (3 microM). Forskolin application after trypsin dialysis did not further enhance ICa. An increase in [Ca2+]i from resting levels (varied by 0.2, 10, and 40 mM EGTA dialysis) to submicromolar concentrations after replacement of external Na+ (Na(o)+) with tetraethylammonium (TEA+) resulted in monotonic inhibition of control ICa, elicited from a holding potential of -40 mV at 22 degrees C. AFter trypsin dialysis, however, ICa became less sensitive to submicromolar [Ca2+]i; the [Ca2+]i of half-maximal inhibition (K0.5, normally around 60 nM) increased by approximately 20-fold. Forskolin also increased the K0.5 by approximately threefold. These and accompanying kinetic data on ICa decay are compatible with a model in which it is assumed that Ca2+ channels can exist in two modes (a high open probability "willing" and a low open probability "reluctant" mode) that are in equilibrium with one another. An increase in [Ca2+]i places a larger fraction of channels in the reluctant mode. This interconversion is hindered by cAMP-dependent phosphorylation and becomes nearly impossible after tryptic digestion.     

Staurosporine inhibits the effects of leukotrienes C4 and D4 in isolated guinea pig heart and trachea

Isolated hearts from guinea pigs were perfused at 37 degrees C with Tyrode's solution according to the technique of Langendorff. Coronary flow, left ventricular pressure amplitude and heart rate were measured. Bolus injection of 30 ng leukotriene C4 caused a long-lasting decrease in coronary flow and left ventricular pressure amplitude while heart rate was not affected. A similar but shorter lasting effect was induced by 100 ng leukotriene D4. The effects of the leukotrienes were completely blocked by 1 microM staurosporine. Staurosporine at concentrations of 100 and 10 nM, in contrast to 1 microM, influenced basic cardiac function slightly or not at all, but antagonized the effects of 30 ng leukotriene C4. In isolated tracheal muscle preparations, leukotriene C4 and D4 induced concentration-dependent contractures. Staurosporine at concentrations of 25-100 nM antagonized the effects of leukotriene C4 and D4 in a noncompetitive manner with inhibitor constants of 47.6 and 75.9 nM, respectively. The results indicate that staurosporine is a potent noncompetitive antagonist of the effects of leukotriene C4 and D4 in smooth muscle.     

Attenuation of postischaemic dysfunction by ischaemic preconditioning is not mediated by adenosine in the isolated rat heart

OBJECTIVE: The aim was to test the hypothesis that adenosine mediates the cardioprotective effects of ischaemic preconditioning in the isolated rat heart. METHODS: Transient exposure of the hearts to adenosine and the A1 selective agonist, PIA, were tested for the ability to mimic the cardioprotective effects of ischaemic preconditioning in hearts that underwent 40 min normothermic ischaemic followed by 30 min reperfusion. Treated hearts were perfused with 10 or 50 microM adenosine or 10(-7) M R-phenylisopropyladenosine (PIA) for 5 min followed by a 5 min washout period. Preconditioned hearts underwent 5 min of ischaemia and 5 min of reflow prior to the 40 min ischaemic period. The ability of the adenosine receptor antagonist, BW A1433U, to inhibit the cardioprotective effects of ischaemic preconditioning was also tested. The effects of these treatments on metabolite levels and postischaemic haemodynamic function were assessed. RESULTS: Adenosine (50 microM), but not PIA, resulted in enhanced accumulation of lactate after 40 min ischaemia: 122(SEM 8) v 96(5) nmol.mg-1 protein in control hearts (p < 0.002). Adenosine and PIA treatments did not significantly affect myocardial acidosis during ischaemia. Postischaemic contractile function (as assessed by percent recovery of the heart rate x developed pressure) was lower in 50 microM, but not 10 microM, adenosine treated hearts [8.8(2.2)] and PIA treated hearts [11.9(2.5)] than in control hearts [20.4(3.6)] (p < 0.01). Ischaemic preconditioning (1) lowered glycogen levels prior to the 40 min ischaemic period [57(6) v 110(18) nmol glucosyl units.mg-1 protein; p < 0.01]; (2) lowered lactate levels at the end of the 40 min ischaemic period [61(4) v 104(5) nmol.mg-1 protein]; (3) preserved myocardial pH during ischaemia [6.69(0.07) v 6.40(0.07); p < 0.01]; and (4) enhanced recovery of postischaemic contractile function [42.3(4.4)% v 19.7(6.0)%; p < 0.02]. BW A1433U did not prevent these effects of ischaemic preconditioning. CONCLUSIONS: The cardioprotective effects of ischaemic preconditioning are not mediated by adenosine released during the preconditioning period in the isolated rat heart. Also, transient treatment of the heart with A1 adenosine receptor agonists can exacerbate postischaemic contractile dysfunction.     

Cyclo-oxygenase products released by low pH have capsaicin-like actions on sensory nerves in the isolated guinea pig heart

OBJECTIVE: Previous work has shown that ischaemia releases calcitonin gene related peptide (CGRP) from capsaicin sensitive nerve terminals in the perfused heart. Prostacyclin (PGI2) is also released during ischaemia. The aim of this study was to investigate whether the release of CGRP by low pH and lactic acid was associated with PGI2 formation and if PGI2 mediated its effect through capsaicin receptors which could be inhibited by capsazepine. METHODS: The isolated Langendorff perfused guinea pig heart was used with a constant perfusion pressure of 70 cm H2O. Low pH was accomplished by changing the Tyrode solution to buffers with pH 7, 6, and 5, or lactic acid (5 mM with pH 6.9). The outflow of CGRP and the stable PGI2 metabolite 6-keto-PGF1 alpha was measured by radioimmunoassay. RESULTS: Low pH (pH 7, 6, 5) and lactic acid evoked release of CGRP. At moderate acidosis (pH 7 and 6) the CGRP release was dependent on extracellular Ca2+, while at pH 5 approximately half of the peptide release persisted in the absence of extracellular Ca2+. This release was attenuated by diclofenac or indomethacin, two inhibitors of prostaglandin formation, as well as by the capsaicin receptor antagonist capsazepine. Both arachidonic acid and PGI2, the predominant cyclo-oxygenase product formed during myocardial ischaemia, evoked a capsazepine sensitive release of CGRP, while capsazepine did not influence the formation of PGI2 evoked by low pH or arachidonic acid. CONCLUSIONS: In the isolated guinea pig heart, moderate acidosis is associated with CGRP release dependent on influx of extracellular Ca2+ and formation of PGI2, with subsequent stimulation of capsazepine sensitive receptors. With more severe acidosis there is an additional non-PGI2-linked CGRP release. Capsazepine represents a novel pharmacological principle for inhibiting the effects of prostanoids on sensory nerves without influencing their formation.     

Effects of volatile anesthetics on atrial and AV nodal electrophysiological properties in guinea pig isolated perfused heart

The binding interactions between dimeric human class alpha glutathione S-transferase A1-1 (GST A1-1) and aflatoxin B1 or sulphobromophthalein (BSP) were characterised. Aflatoxin B1 binds to GST A1-1 with a stoichiometry of 1.1 mol/mol of dimeric enzyme. The binding interaction, which can be described by a hyperbolic saturation isotherm (Kd = 8+/-2 microM), does not induce major structural changes in the enzyme, nor does it inhibit enzymatic activity. The average distance between the single tryptophan residue (Trp20) of GST A1-1 and protein-bound aflatoxin B1 was calculated to be 22.7 A by means of fluorescence resonance energy transfer. The aflatoxin-binding region, according to this calculated distance, was determined to be located in the dimer interface cleft near the crystallographic two-fold axis. Hill-plot analyses suggest that a positive co-operative interaction exists between BSP and the dimeric GST A1-1 (h = 1.6+/-0.1; K' = 14+/-0.6 microM). The binding of BSP induces a conformational change in the enzyme which is accompanied by a decrease in the molecular flexibility and in the solvent-accessible properties of the enzyme's Trp20 residue. Site-directed mutagenesis of Trp20 (Trp20-->Phe) confirms that this residue is situated in the binding environment and although it is not essential for BSP binding, it is involved in the interaction. Furthermore, the structural change associated with BSP binding alters the hyperbolic character of the glutathione saturation curve. This indicates that there may also be a cooperative interaction between glutathione and BSP or that BSP binding induces asymmetric functioning of the two enzyme subunits so that they become unequal in catalytic activity.     

Mechanisms of plumbagin action on guinea pig isolated atria

In electrically driven guinea pig left atria, plumbagin (5-hydroxy-2-methyl-1,4-naphthoquinone; 0.5-10 microM) produced a marked positive inotropic effect that was about 65% that caused by isoprenaline in the same experimental conditions. The effect was mainly not dependent on catecholamine release from adrenergic stores. An EC50 of 3 microM was calculated from the concentration-response curves. The increase in force of contraction was followed by a nonreversible contracture. Plumbagin was reduced by cardiac mitochondrial and soluble reductases with consequent generation of large amounts of superoxide anion. The assay of reduced glutathione/oxidized glutathione content in atria, treated with 10 microM plumbagin and frozen at the appearance of increase in diastolic tension, showed a significant decrease in reduced glutathione (-52% with respect to control atria) and a 5-fold increase in oxidized glutathione levels. Moreover, in the same experimental conditions a significant decrease in adenosine triphosphate (-55% with respect to the controls) and in adenylate energy charge (from 0.92-0.64) was observed. Of the enzymes and transport systems involved in the control of the cardiac contractility, the sarcoplasmic reticulum Ca2+ pump seemed to be a specific target for plumbagin. After 30 min of incubation with cardiac sarcoplasmic reticulum membrane vesicles, plumbagin inhibited Ca2+ uptake by the pump in a concentration-dependent manner (IC50 = 3 microM). On the basis of these results, the increase in diastolic tension caused by plumbagin appears to be related to intracellular Ca2+ accumulation, due both to the low availability of adenosine triphosphate for ionic pumps and direct inhibition of Ca2+ reuptake in sarcoplasmic reticulum.     

Time course of the endocochlear potential in the isolated cochlea of the guinea pig

The temperature of Hanks' solution changed its potential (-0.48 mV/degrees C in Na(+)-Hanks' and -0.23 mV/degrees C in K(+)-Hanks' solution), but the pH had no clear effect on the potential. The time course of the endocochlear potential (EP) in the isolated cochlea of the guinea pig was measured under some different conditions. When the cochlea was moistened with Hanks' solution, negative EP increased gradually toward 0 mV at 124 min after death. When the cochlea was immersed in Hanks' solution, positive EP was obtained but it depended on the oxygen and the circulation of Hanks' solution. Moderate cooling (5 degrees C) of Hanks' solution had no significant effect on the EP of the isolated cochlea immersed in oxygen-saturated Hanks' solution circulated by oxygen bubbles. The space constant and the amplitude of the displacement responses were independent of the EP in the isolated cochlea. Thus, the positive EP might not show the physiological condition of the isolated cochlea.     

The role of ions on histamine-induced depolarization in isolated guinea pig adipocytes

Effects of ions on histamine (Hi)-induced depolarization were studied in guinea pig adipocytes. Depolarization induced by Hi in guinea pig adipocytes was decreased by removal of K+ from the medium or pretreatment with ouabain at concentrations that showed no significant effect themselves. The decrease in membrane potentials induced by Hi was also abolished potently by replacement of Na+ by choline or pretreatment with tetrodotoxin at a concentration that caused no significant action alone. Pretreatment with monensin at a concentration lower than that eliciting the action resulted in a potentiation of Hi-induced depolarization. The depolarization induced by Hi was not affected by the presence of Ca2+ in the medium or pretreatment of the cells by diltiazem.     

Opioid peptide participates in post-tetanic twitch inhibition in guinea pig isolated ileum

Phospholipase A2 (PLA2)-catalysed liberation of arachidonic acid is the rate-limiting step in the generation of the lipid mediators prostaglandins and leukotrienes. PLA2 regulation thus represents a pivotal mechanism in the pathogenesis of inflammation. In this study we investigated the effects of TNF alpha and IL-1 alpha on PLA2 activity in cultured murine keratinocytes. Starting 18 h after stimulation, PLA2 activity increased significantly by about 250-320%) in the supernatants and in the cell pellets. This effect was completely inhibited either by preincubation of the cells with dexamethasone 48 h before stimulation or by coincubation with actinomycin D. PLA2 activity detected in the supernatants was blocked by reduction with dithiothreitol, whereas the PLA2 activity in the pellets was dithiothreitol-resistant. We conclude that in murine keratinocytes IL-1 alpha induce de novo synthesis and release of a secretory PLA2 and the induction of a different PLA2 activity in the cytosol. These findings indicate a crucial link between early cytokine effects and the initiation of the lipid mediator cascade in keratinocytes. The observation that PLA2 induction could be completely inhibited by preincubation with dexamethasone allows new insights into the mechanism of steroid effects on epidermal inflammation and renders PLA2 regulation an interesting therapeutic target.     

GR89,696 is a kappa-2 opioid receptor agonist and a kappa-1 opioid receptor antagonist in the guinea pig hippocampus

Receptor binding studies and electrophysiological studies demonstrated the existence of at least two kappa opioid receptors, which have been designated kappa-1 and kappa-2. Several agonists and antagonists are selective for the kappa-1 receptor whereas no known ligands are selective for the kappa-2 receptor. In this study, the kappa opioid GR89,696 was tested in the guinea pig hippocampal slice preparation for kappa-1 versus kappa-2 activity. The perforant path-evoked population spike in the dentate was use to evaluate activity at the kappa-1 receptor, and the Schaffer collateral-evoked N-methyl-D-aspartate (NMDA) receptor-mediated synaptic current in CA3 pyramidal cells was used to measure kappa-2 receptor activation. GR89,696 had no effect on the perforant path-evoked dentate population spike; however, it did reverse the effects of the selective kappa-1 agonist U69,593 when co-perfused over the slices. In the CA3, GR89,696 inhibited the NMDA receptor-mediated synaptic current. The inhibition was antagonized by naloxone. The EC50 for GR89,696 on the NMDA current was 41.7 nM (95% CL, 7.0-248 nM). These findings indicate that GR89,696 is an agonist for kappa-2 opioid receptors and an antagonist at kappa-1 receptors in the guinea pig hippocampus.     

Hair cell loss as a function of age in the normal cochlea of the guinea pig

The surface specimen technique was used to study both spiral organs of 28 normal guinea pigs of four age groups: less than 24 hours, 6 weeks, 3 months and 1 year. Damaged hair cells were recorded for the whole of each spiral organ on cochleograms. The mean percentage number of outer hair cells damaged per age group was found to increase as a power function of age. In the animals aged less than 24 hours the mean percentage of damaged outer hair cells was 0.45%; in the 6-week animals, 1.85%; in the 3-month animals, 3.19%; and in the 1-year animals, 6.82%. At all ages outer hair cell loss was maximal in the third row, and towards the apex of the cochlea. Inner hair cell loss was very slight, with a maximum of 9 damaged inner hair cells per cochlea.