Changes in sensitivity to histamine of guinea pig cardiac muscles during postnatal development

Histamine stimulates the heart by interacting with cardiac histamine receptors. We investigated the postnatal changes in histamine sensitivity with spontaneously beating right atria and electrically driven left atria and right ventricular papillary muscles from 0-, 5-, and 10-day-old and adult guinea pigs. The positive chronotropic response to histamine in right atria was antagonized by cimetidine but not by chlorpheniramine at any age. Chlorpheniramine did not antagonize the positive inotropic effect of histamine and 2-(2-pyridyl)ethylamine in the immature left atria but it blocked the positive inotropic effect in the adult; cimetidine had no effect. The positive inotropic effect of histamine in right ventricular muscles was not affected by chlorpheniramine in immature right ventricular muscles but was antagonized in the adult. These results suggest that, in immature left atria and right ventricular muscles, there is no H1-receptor system mediating the positive inotropic effect of histamine and that, as age advances, this system begins to mediate the positive inotropic effect. In immature left atria, non-H1 and non-H2 receptors exist and mediate the positive inotropic effect of histamine.     

Seasonal variations in the content of catecholamines in carp heart (Cyprinus carpio)

1. Seasonal changes in epinephrine and norepinephrine contents were demonstrated in ventricular muscle tissues of carp heart. 2. Patterns of changes in epinephrine and norepinephrine contents were similar; high during late spring-to-summer and low in winter; however, the fluctuation in epinephrine content was greater than that of norepinephrine. 3. Tyramine caused a positive inotropic effect in isolated electrically-stimulated ventricular muscles of carp heart. The inotropic effect was totally blocked by reserpine, reduced by propranolol, but not altered by atenolol. 4. These results suggest that the catecholamines released from sympathetic nerve terminals may contribute to the regulation of the seasonal change in the function of cardiac muscles in the carp.     

组胺拮抗剂对小鼠ATP-敏感性钾离子通道的影响

目的观察比较3种组胺拮抗剂对缺血性心肌细胞的ATP-敏感性钾离子通道中的影响。方法利用急性酶解法分离小鼠心室肌细胞。结果组胺拮抗剂pyrilamine、chlorpheniramine及diphenhydramine均可抑制ATP-敏感性钾离子通道的活性,抑制程度为pyrilamine〉chlorpheniramine〉diphenhydramine。组胺对KATP通道活性无影响。结论第一代的组胺拮抗剂（pyrilamine、chlorpheniramine及diphenhydramine）对KATP通道活性有抑制作用,其抑制作用与膜上H1受体无关。     

Effect of vanadate on cardiac contraction and adenylate cyclase.

Vanadate produces a positive inotropic effect on ventricular muscle from rat, rabbit, guinea pig and cat; a positive inotropic effect on the atria of rat and rabbit, but a negative inotropic effect on the atria of guinea pig and cat. The effects of vanadate are completely reversible and occur in a concentration range of 10^?5M to 10^?3M. In this same concentration range, vanadate also causes a marked activation of cardiac adenylate cyclase suggesting that the positive inotropic action might be due in part to an elevation of cyclic AMP levels. The effects of vanadate are not influenced by alprenolol, cimetidine, or mepyramine, indicating a lack of involvement of β-adrenergic or histamine H₂ and H₁ receptors.     

Further characterization of the receptors involved in the positive inotropic effect of histamine on rabbit papillary muscle

The effects of histamine on the force of contraction and calcium-dependent action potentials were studied in rabbit ventricular papillary muscles. The positive inotropic effect of histamine seems to be dependent on stimulation of H1 and H2 receptors. The H1 antagonist chlorpheniramine produced a competitive blockade of the positive inotropic effects of histamine. Cimetidine produced a competitive blockade, which was apparent only after blockade of H1 receptors. Histamine increased the maximum upstroke velocity of slow action potentials. This effect can be entirely accounted for by stimulation of H2 receptors. The phosphodiesterase inhibitor 3-isobutyl-methyl-xanthine potentiated the H2 receptor mediated effects of histamine on the force of contraction and slow action potentials. We conclude that rabbit ventricular muscle possesses both H1 and H2 receptors that mediate the positive inotropic effect of histamine. The H2-mediated effect seems to be causally related to an increase in the calcium slow inward current and is probably linked to an enhanced cellular cyclic adenosine monophosphate content. The mechanism of the H1-mediated positive inotropic effect remains unknown.     

Developmental changes in inotropic actions of neurotoxins observed in ventricular muscle of rat heart.

Developmental changes in functions of myocardial sodium channels were examined from inotropic effects of several neurotoxins in ventricular muscle preparations obtained from prenatal (20-22 day gestation) or adult (3-4 months old) rat hearts. Tetrodotoxin caused a negative inotropic effect in low concentrations and a loss of muscle responsiveness to electrical stimulation in high concentrations in preparations obtained from either prenatal or adult rat heart. The tetrodotoxin concentration that caused a 50% decrease in developed tension was higher in prenatal rats. Anemonia sulcata toxin, Androctonus australis toxin, veratridine, and Centruroides sculpturatus toxin all produced positive inotropic effects in adult rat heart. The effects were largest with A. sulcata and A. australis toxins, intermediate with veratridine, and smallest with C. sculpturatus toxin. Prenatal heart required higher concentrations of either veratridine, or A. sulcata or A. australis toxins to produce comparable positive inotropic effects. With C. sculpturatus toxin, no significant positive inotropic effect was observed in prenatal heart muscle preparations. These results indicate that cardiac sodium channels undergo significant functional changes during development and that negative and positive inotropic effects of neurotoxins resulting from inhibition and enhancement of fast Na+ channels reflect developmental changes in the cardiac sodium channels.     

Are beta-adrenergic receptors in ventricular muscles of carp heart (Cyprinus carpio) mostly the beta-2 type?

The positive inotropic effect of isoproterenol was quantified in the presence of several beta-adrenergic blocking agents in ventricular strips of carp heart. Isoproterenol had a concentration-dependent positive inotropic effect. The effect was markedly inhibited by propranolol and carteolol, but was extremely insensitive to atenolol. Practolol totally failed to alter the effect. These results indicated that the positive inotropic effect of isoproterenol may be mediated by mostly beta-2 adrenergic receptors in ventricular strips of carp heart.     

Role of histamine in the antitumour activity of endotoxin

Summary The role of histamine in the antitumour activity of endotoxin against solid syngeneic Meth-A sarcoma in BALB/c mice was studied. Endotoxin induces haemorrhagic necrosis and regression of this tumour. Histamine and the selective H₁ receptor agonist 2-pyridylethylamine mimicked the induction of necrosis but did not cause regression. The selective H₂ receptor agonist dimaprit did not cause any tumour damage. The effect of histamine could be inhibited by the H₁ receptor antagonists diphenhydramine and promethazine but not by the H₂ receptor antagonist cimetidine. Endotoxin-induced necrosis was slightly affected by diphenhydramine, and the incidence of regression was reduced by both H₁ antagonists. Cimetidine potentiated endotoxin-induced regression. Similar effects were observed concerning the effects of H-receptor antagonists on necrosis and regression induced by tumour necrosis serum (TNS). Histological examination revealed no marked additional effects of diphenhydramine or cimetidine on endotoxin-induced hyperaemia, haemorrhagic necrosis, and mitotic arrest of the tumour cells. Only cimetidine increased the extent of nonhaemorrhagic necrosis. The endotoxin-induced release of tumour necrosis factor and cytostatic activity in TNS was clearly reduced by diphenhydramine, but hardly affected by cimetidine.Data indicate that intact H₁ receptors are required for the induction of tumour regression and antitumour factors by endotoxin. Concomitant H₂ blockade may facilitate this by stimulating H₁ receptor-mediated processes upon endotoxin-induced histamine release, although a cimetidine-induced inhibition of T-suppressor cell activation might also be involved.     

Histamine protects against NMDA-induced necrosis in cultured cortical neurons through H receptor/cyclic AMP/protein kinase A and H receptor/GABA release pathways

Using histamine and the H3 receptor antagonist thioperamide, the roles of histamine receptors in NMDA-induced necrosis were investigated in rat cultured cortical neurons. Within 3 h of intense NMDA insult, most neurons died by necrosis. Histamine reversed the neurotoxicity in a concentration-dependent manner and showed peak protection at a concentration of 10(-7) m. This protection was antagonized by the H2 receptor antagonists cimetidine and zolantidine but not by the H1 receptor antagonists pyrilamine and diphenhydramine. In addition, the selective H2 receptor agonist amthamine mimicked the protection by histamine. This action was prevented by cimetidine but not by pyrilamine. 8-Bromo-cAMP also mimicked the effect of histamine. In contrast, both the adenylyl cyclase inhibitor 9-(tetrahydro-2-furanyl)-9H-purine-6-amine and the cAMP-dependent protein kinase inhibitor N-[2-(p-bromocinnamylamino) ethyl]-5-isoquinolinesulfonamide reversed the protection by histamine. Thioperamide also attenuated NMDA-induced excitotoxicity, which was reversed by the H3 receptor agonist (R)-alpha-methylhistamine but not by pyrilamine and cimetidine. In addition, the protection by thioperamide was inhibited by the GABA(A) receptor antagonists picrotoxin and bicuculline. Further study demonstrated that the protection by thioperamide was due to increased GABA release in NMDA-stimulated samples. These results indicate that not only the H2 receptor/cAMP/cAMP-dependent protein kinase pathway but also the H3 receptor/GABA release pathway can attenuate NMDA-induced neurotoxicity.     

The roles of alpha- and beta-adrenoceptors in the chronotropic responses to norepinephrine in carp heart (Cyprinus carpio)

1. The chronotropic effect of norepinephrine was studied in isolated spontaneously beating atrial preparations of carp (Cyprinus carpio) heart. 2. Norepinephrine, 0.1 microM, caused a positive chronotropic effect, while at 1 microM it caused either a positive or a negative chronotropic effect. The positive chronotropic effect, observed in 13 preparations, was potentiated by phentolamine and almost completely blocked by propranolol. 3. The negative chronotropic effect observed in the other 5 preparations was greater in the presence of propranolol, reduced by phentolamine and not affected by atropine. 4. These results indicate that alpha- and beta-adrenoceptors may coexist, mediating the negative and positive chronotropic effects, respectively, in isolated atrial preparations of carp heart.     

alpha-Adrenoceptor stimulation-mediated negative inotropism and enhanced Na(+)/Ca(2+) exchange in mouse ventricle

Mechanisms underlying the negative inotropic response to alpha-adrenoceptor stimulation in adult mouse ventricular myocardium were studied. In isolated ventricular tissue, phenylephrine (PE), in the presence of propranolol, decreased contractile force by approximately 40% of basal value. The negative inotropic response was similarly observed under low extracellular Ca(2+) concentration ([Ca(2+)](o)) conditions but was significantly smaller under high-[Ca(2+)](o) conditions and was not observed under low-[Na(+)](o) conditions. The negative inotropic response was not affected by nicardipine, ryanodine, ouabain, or dimethylamiloride (DMA), inhibitors of L-type Ca(2+) channel, Ca(2+) release channel, Na(+)-K(+) pump, or Na(+)/H(+) exchanger, respectively. KB-R7943, an inhibitor of Na(+)/Ca(2+) exchanger, suppressed the negative inotropic response mediated by PE. PE reduced the magnitude of postrest contractions. PE caused a decrease in duration of the late plateau phase of action potential and a slight increase in resting membrane potential; time courses of these effects were similar to that of the negative inotropic effect. In whole cell voltage-clamped myocytes, PE increased the L-type Ca(2+) and Na(+)/Ca(2+) exchanger currents but had no effect on the inwardly rectifying K(+), transient outward K(+), or Na(+)-K(+)-pump currents. These results suggest that the sustained negative inotropic response to alpha-adrenoceptor stimulation of adult mouse ventricular myocardium is mediated by enhancement of Ca(2+) efflux through the Na(+)/Ca(2+) exchanger.     

Cardiovascular effects of matrine isolated from the Chinese herb Shan-dou-gen

Matrine, a pure compound isolated from the Chinese herb Shan-don-Gen (Sophora subprostrata), was studied for its effects on the cardiovascular system of the rat. Intravenous injections of matrine at doses from 5 mg to 20 mg/kg body weight exhibited dose-dependent hypotensive and bradycardiac effects. These effects lasted only 1 to 3 min. In the isolated atria and ventricle preparations, matrine at doses from 50 micrograms to 200 micrograms/ml increased the amplitudes of spontaneous contraction of the atria and electrically induced contraction of the ventricle, whereas the frequency of the spontaneous beating of the atria was reduced. The dose-dependent effects of matrine on the isolated preparations persisted as long as the compound was present. Tachyphylaxis was not observed with repeated applications of this compound to the isolated preparations. The positive inotropic effects on both atria and ventricle and the negative chronotropic effect on spontaneous beating of the atria by matrine were not blocked by diphenhydramine, atropine, phenoxybenzamine, propranolol, trifluoperazine, or methysergide. In contrast, verapamil significantly reduced the positive inotropic effect of matrine on the ventricle. In the isolated aortic strip preparation, matrine at a dose of 200 micrograms/ml led to a slight increase in muscle tone. The same dose of matrine induced a 35% increase of perfusion pressure in the hindleg perfusion model. These results suggest that the in vivo transient hypotensive effect of matrine is likely associated with a decrease in heart rate itself, since positive inotropic effects on both the atria and the ventricle, and vasoconstriction of some vascular beds could not be the cause of hypotension.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cardiac histamine receptors.

Current evidence pertinent to the identification of cardiac histamine receptors in the guinea pig is reviewed. Pharmacological characterization has been aided by the use of selective agonists and antagonists for both types of histamine receptors. It appears that both H1 and H2 receptors mediate the cardiac effects of histamine. Histamine H2 receptors mediate the positive chronotropic and ventricular inotropic effects. H1 receptors mediate the negative dromotropic effect of histamine and possibly the atrial inotropic effect. Histamine-induced arrhythmias involve H1 receptors (arrhythmias of conduction) or H2 receptors (arrhythmias of automaticity), or both. The receptors mediating the histamine-induced increase in coronary flow are not as clearly defined: both H1 and H2 receptors might be implicated.     

Histamine receptor effects on dissipation of an intracellular proton gradient of isolated gastric mucosal surface cells

The effects of histamine and several H1 and H2 receptor agents on Na+/H+ and Cl-/HCO-3 exchange systems of isolated gastric mucosal surface cells were studied. The cells were acid-loaded by the NH4Cl prepulse technique and the spontaneous Na+- and HCO-3-induced dissipation of the intracellular proton gradient (pHi) was followed using the metachromatic dye acridine orange. Histamine (10(-2-5) M) stimulates HCO-3-induced dissipation of the pHi but has no effect on Na+-induced or spontaneous dissipation. The H1 agonist 2-(2-aminoethyl)pyridine and the H2 agonist dimaprit also have no effect on Na+-induced or spontaneous pHi dissipation. However, both of these agents mimic the effect of histamine on HCO-3-induced dissipation, but only at a higher concentration (10(-3) M). The combination of 2-(2-aminoethyl)pyridine and dimaprit produces a histamine-like effect at lower concentrations (10(-5) and 10(-4) M). The effects of histamine are blocked by either the H1 antagonists diphenhydramine and pyrilamine or the H2 antagonists cimetidine and SKF 93479. The results suggest that the effect of histamine on HCO-3-induced dissipation of a pHi in gastric mucosal surface cells is mediated through a coordinated mechanism involving both H1 and H2 receptor sites.     

Effects of clenbuterol on contractility and Ca2+ homeostasis of isolated rat ventricular myocytes

Clenbuterol, a compound classified as a beta2-adrenoceptor (AR) agonist, has been employed in combination with left ventricular assist devices (LVADs) to treat patients with severe heart failure. Previous studies have shown that chronic administration of clenbuterol affects cardiac excitation-contraction coupling. However, the acute effects of clenbuterol and the signaling pathway involved remain undefined. We investigated the acute effects of clenbuterol on isolated ventricular myocyte sarcomere shortening, Ca2+ transients, and L-type Ca2+ current and compared these effects to two other clinically used beta2-AR agonists: fenoterol and salbutamol. Clenbuterol (30 microM) produced a negative inotropic response, whereas fenoterol showed a positive inotropic response. Salbutamol had no significant effects. Clenbuterol reduced Ca2+ transient amplitude and L-type Ca2+ current. Selective beta1-AR blockade did not affect the action of clenbuterol on sarcomere shortening but significantly reduced contractility in the presence of fenoterol and salbutamol (P < 0.05). Incubation with 2 microg/ml pertussis toxin significantly reduced the negative inotropic effects of 30 microM clenbuterol. In addition, overexpression of inhibitory G protein (Gi) by adenoviral transfection induced a stronger clenbuterol-mediated negative inotropic effect, suggesting the involvement of the Gi protein. We conclude that clenbuterol does not increase and, at high concentrations, significantly depresses contractility of isolated ventricular myocytes, an effect not seen with fenoterol or salbutamol. In its negative inotropism, clenbuterol predominantly acts through Gi, and the consequent downstream signaling pathways activation may explain the beneficial effects observed during chronic administration of clenbuterol in patients treated with LVADs.     

Species variations in the relaxation of tail arteries to electrical stimulation

Relaxation in response to electrical stimulation has been studied in isolated tail arteries from rats, cats and pigs. Electrical stimulation elicited contractile responses in unstimulated strips, but caused frequency-dependent relaxations in tail arteries from all species studied, following contractile responses by various agents. The order of susceptibility to the relaxant effect of electrical stimulation in arteries from all three species was pig greater than cat greater than rat. Relaxations to electrical stimulation were unaffected by prior treatment of arteries with atropine, propranolol, tetrodotoxin, indomethacin, ouabain, pyrilamine and chemical denervation with 6-hydroxy-dopamine, but were prevented, dose-dependently, by cimetidine and aminophylline (antagonists of histamine H2-receptor and adenosine P1-receptor, respectively). The results suggest that relaxation of tail arteries from the rat, cat and pig in response to electrical stimulation is modulated by histamine and adenosine.     

Beta-2 adrenergic receptors are not only for circulating catecholamines in ventricular muscles of carp heart (Cyprinus carpio)

Whether beta-2 adrenergic receptors are only for the circulating catecholamines in isolated ventricular muscles of carp heart was studied. Isoproterenol, epinephrine and norepinephrine had concentration dependent positive inotropic effects. The ED50 values for isoproterenol, epinephrine and norepinephrine were 6.23 +/- 1.9, 87.3 +/- 27.3 and 4500 +/- 580 nM, respectively. Phentolamine did not alter the inotropic effects. Tyramine increases the force of contraction and this action was completely blocked by propranolol and reserpine, but not by atenolol. Norepinephrine levels, in comparison with those of epinephrine, were similar in plasma and higher in ventricular muscles. However, the norepinephrine levels in ventricular muscles of carp heart were markedly lower than those in ventricular muscles of rat heart. These results suggest that ventricular muscles of carp heart contain adrenergic neurons, and that a catecholamine released from the nerve terminals, presumably epinephrine, may stimulate beta-2 adrenergic receptors.     

Cholinergic and glutamatergic activation reverses working memory failure by hippocampal histamine H1 receptor blockade in rats

Intrahippocampal administration of the histamine H1 receptor antagonist pyrilamine (3.2-32 ug/ side) but not the histamine H2 receptor antagonist cimetidine (1.0-10 microg/side) increased the number of errors in the working memory task with a three-panel runway setup. The increase in working memory errors induced by intrahippocampal 32 microg/side pyrilamine was significantly reduced by concurrent infusion of the histamine H1 receptor agonist 2-pyridylethylamine (3.2 and 10 microg/side). The cholinesterase inhibitor physostigmine ( 1.0 and 3.2 microg/side) and D-cycloserine (0.32 and 1.0 microg/side), the partial agonist at the glycine binding site on the NMDA receptor/channel complex, reduced the increase in working memory errors induced by intrahippocampal 32 microg/side pyrilamine. These results suggest that the hippocampal histaminergic activity via histamine H1 receptor is necessary for normal working memory processes and that the septohippocampal cholinergic activation and positive modulation of the NMDA receptor/channel through activation of the glycine site can alleviate dysfunction of hippocampal histamine H1 receptor-mediated neurotransmission involved in working memory function.     

Effects of inotropic agents on isolated guinea pig heart under conditions that modify calcium pools involved in contractile activation

Positive inotropic effects of strophanthidin were compared with those of isoproterenol, BAY K 8644, grayanotoxin, veratridine, and monensin in electrically stimulated left atrial muscle preparations of guinea pig heart under conditions in which the calcium pool, playing a primary role in contractile activation, was altered. In concentrations that caused similar degrees of increase in developed tension under 1 Hz stimulation, grayanotoxin and strophanthidin caused a relatively large increase in potentiated postrest contraction compared with that caused by isoproterenol, whereas the effect of BAY K 8644 on the postrest contraction was the smallest. The effect of high concentrations of grayanotoxin or strophanthidin, however, resembled that of isoproterenol. The sensitivity of the isolated heart muscle to these agents was compared under conditions in which utilization of various calcium pools contributing to contractile activation was suppressed. Mn2+, which reduces contribution of very superficial Ca2+, reduced sensitivity of heart muscle to the positive inotropic effect of isoproterenol and enhanced the inotropic effect of monensin or veratridine. Verapamil, nifedipine, diltiazem, or ryanodine did not have marked effects on the positive inotropic action of Ca2+, monensin, veratridine, or strophanthidin. These results suggest that the positive inotropic actions of veratridine, grayanotoxin, and strophanthidin share a common mechanism and that low concentrations of strophanthidin may increase loading of Ca2+ pool, which plays an important role in potentiated postrest contraction.     

Neuropeptide Y (NPY) and the pig heart: release and coronary vasoconstrictor effects

The effects of electrical stimulation of the stellate ganglia on the arterio-venous concentration differences of neuropeptide Y (NPY)-like immunoreactivity (LI) over the pig heart were studied in vivo in relation to changes in heart rate and left ventricular pressure. Furthermore, the effects of NPY on coronary vascular tone were analysed in vivo and in vitro. Stellate ganglion stimulation at a high frequency (10 Hz) caused a clear-cut, long lasting increase in plasma levels of NPY-LI in the coronary sinus compared to the aorta, suggesting release of this peptide from sympathetic terminals within the heart. The stimulation-evoked overflow of NPY-LI from the heart was enhanced about 3-fold by alpha-adrenoceptor blockade using phenoxybenzamine, suggesting that NPY release is under prejunctional inhibitory control by noradrenaline (NA). Combined alpha- and beta-adrenoceptor blockade abolished most of the positive inotropic response of the heart upon stellate ganglion stimulation, while a considerable positive chronotropic effect remained. After guanethidine treatment, stellate ganglion stimulation still produced a small positive inotropic and chronotropic effect on the heart. The stimulation evoked NPY overflow was markedly reduced by guanethidine indicating an origin from sympathetic nerve terminals. Injection of NPY into the constantly perfused left anterior descending artery in vivo caused a long lasting, adrenoceptor antagonist resistant increase in perfusion pressure, suggesting coronary vasoconstriction. NPY contracted coronary arteries in vitro via a nifedipine-sensitive mechanism. NA dilated coronary vessels both in vivo and in vitro via beta-adrenoceptor activation. It is concluded that sympathetic nerve stimulation increases overflow of NPY-LI from the heart suggesting release from cardiac nerves in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)