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.     

Histamine-induced modulation of vascular tone in the isolated chicken basilar artery: a possible involvement of endothelium

We investigated the histamine responsiveness of basilar arterial rings isolated from chicken. We also examined whether endothelial cells were involved in the histamine responsiveness and in resting vascular tone. Histamine induced concentration-dependent relaxations under condition of precontraction by 5-hydroxytryptamine. The concentration-response curve for histamine was shifted to the right by diphenhydramine (a H(1) receptor antagonist), cimetidine (a H(2) receptor antagonist) and Nomega-nitro-L-arginine (L-NNA, a nitric oxide synthase inhibitor); however, indomethacin (a cyclooxygenase inhibitor) had no significant effect on it. Treatment with L-NNA shifted the concentration-response curve of histamine to the right in the presence of cimetidine, but not in the presence of diphenhydramine. Treatment with cimetidine shifted the concentration-response curve of histamine to the right in the presence of diphenhydramine. L-NNA induced a contraction but indomethacin had no effect on the resting vascular tone. These results suggest that histamine-induced relaxation is mediated via activation of H(1) receptors located on endothelial cells and H(2) receptors located on smooth muscle cells. The main relaxing factor released from endothelial cells is probably nitric oxide. The resting vascular tone was modulated by spontaneously released nitric oxide, but not by prostaglandins or thromboxane A(2).     

Histamine interaction on surface recognition sites of H2-type in parietal and non-parietal cells isolated from the guinea pig stomach

In gastric cells isolated by pronase digestion from the guinea pig, histamine stimulated cAMP production in 3 fundic cell fractions (EC50 = 1.6--2 x 10(-4) M) enriched in parietal (94%), peptic (63%) and mucous cells (87%) as well as in antral cells (EC50 = 4 x 10(-4) M) that are devoid of parietal cells. Histamine stimulations were completely inhibited by the H2 antagonist cimetidine (Ki = 0.27--0.57 x 10(-6) M) or by the H1 antagonist diphenhydramine, but at 100-times lower potency (Ki = 22--45.7 x 10(-6) M), indicating the presence of histamine H2 receptors in parietal and nonparietal cells of the guinea pig gastric mucosa.     

Molecular cloning of the human histamine H2 receptor.

We utilized the technique of polymerase chain reaction with oligonucleotide primers based upon the nucleotide sequence of the canine H2 histamine receptor gene which we recently isolated to clone its human homologue. Transfection of a construct of this gene in Colo-320 DM cells led to the expression of a receptor that bound to [methyl-3H] tiotidine and was linked to 3',5'cyclic adenosine monophosphate (cAMP) generation in response to histamine. Both cAMP generation and [methyl-3H] tiotidine binding were inhibited with the H2 histamine receptor selective antagonist cimetidine but not diphenhydramine or thioperamide which are, respectively, H1 and H3 histamine receptor antagonists. These data confirm that we have successfully cloned a novel gene encoding the human H2 histamine receptor.     

Properties of histamine-induced suppressor factor in the regulation of lymphocyte response to PHA in mice

Splenic T lymphocytes release a suppressor factor into the culture supernatant when incubated for 24 hr with histamine (10^?4M). Histamine-induced suppressor factor (HISF) inhibits lymphocyte response to PHA; it is released by T lymphocytes (either nylon-nonadherent or nylon-adherent lymphocytes) and not by B-cells or macrophages; its production is not observed after depletion of histamine receptor-bearing lymphocytes and is blocked by the H2 receptor antagonist (cimetidine) but not by the H1 receptor antagonist (diphenhydramine). Gel filtration by Sephadex G100 chromatography indicates that HISF had an approximate MW of 45,000 to 68,000. Its inhibitory activity was removed by passage over a histamine RSA-Sepharose column, but not by passage over rabbit anti-mouse Ig-Sepharose column; it was blocked by prostaglandin synthetase inhibitor (PGS) (Ro 205720) indicating that this activity is mediated by a prostaglandin (PG) synthesis.     

Selective regulation of H1 histamine receptor signaling by G protein-coupled receptor kinase 2 in uterine smooth muscle cells

Histamine stimulates uterine contraction; however, little is known regarding the mechanism or regulation of uterine histamine receptor signaling. Here we investigated the regulation of Galpha(q/11)-coupled histamine receptor signaling in human myometrial smooth muscle cells using the inositol 1,4,5-trisphosphate biosensor pleckstrin homology domain of phospholipase-delta1 tagged to enhanced green fluorescent protein and the Ca(2+)-sensitive dye Fluo-4. Histamine addition caused concentration-dependent increases in inositol 1,4,5-trisphosphate and [Ca(2+)](i) in the ULTR human uterine smooth muscle cell line and primary human myometrial cells. These effects were completely inhibited by the H(1) histamine receptor antagonist, diphenhydramine, and were unaffected by the H(2) histamine receptor antagonist, cimetidine. ULTR and primary myometrial cells were transfected with either dominant-negative G protein-coupled receptor kinases (GRKs) or small interfering RNAs targeting specific GRKs to assess the roles of this protein kinase family in H(1) histamine receptor desensitization. Dominant-negative GRK2, but not GRK5 or GRK6, prevented H(1) histamine receptor desensitization. Similarly, transfection with short interfering RNAs (that each caused >70% depletion of the targeted GRK) for GRK2, but not GRK3 or GRK6, also prevented H(1) histamine receptor desensitization. Our data suggest that histamine stimulates phospholipase C-signaling in myometrial smooth muscle cells through H(1) histamine receptors and that GRK2 recruitment is a key mechanism in the regulation of H(1) histamine receptor signaling in human uterine smooth muscle. These data provide insights into the in situ regulation of this receptor subtype and may inform pathophysiological functioning in preterm labor and other conditions involving uterine smooth muscle dysregulation.     

Further studies on the effect of cimetidine and other neurotropic drugs on rat serum prolactin

The hyperprolactinemic effect of H2 histamine receptor antagonists has been described in the rat and in humans. The present study was undertaken to explore more fully the hyperprolactinemic action of cimetidine, and its interrelationship with other neurotropic agents. Adult ovariectomized estrogen-primed rats were injected with mepiramine, diphenhydramine, pilocarpine, atropine, dopamine, cimetidine or saline as control, at different sequences and the effect on serum prolactin was determined. The effect of cimetidine on prolactin release "in vitro" by hemipituitaries of estrogenized male rats during a short time incubation period, was also investigated. Our results indicate that cimetidine is able to release prolactin and that this effect is not prevented by atropine or the classical antihistaminergic agents mepiramine and diphenhydramine. Both pilocarpine and dopamine inhibit the prolactin release due to cimetidine. The hypoprolactinemic action of pilocarpine was completely blocked by atropine, but not by mepiramine or diphenhydramine. Finally, cimetidine was unable to modify significantly the prolactin release by incubated pituitaries. It is postulated that cimetidine acts mainly at the brain and that the hyperprolactinemic effect is not mediated by muscarinic or H1 histaminergic receptors. This action can be prevented by drugs such as dopamine that are able to act on the lactotroph, and also by pilocarpine, probably by stimulating a prolactin inhibiting pathway.     

Isolation and characterization of the Mg2(+)-ATPase from rabbit skeletal muscle sarcoplasmic reticulum membrane preparations

Preparations of sarcoplasmic reticulum vesicles, obtained according to the method of Eletr and Inesi (Biochim. Biophys. Acta (1972) 282, 174), contained both Mg2(+)-ATPase and Ca2+, Mg2(+)-ATPase activity. The two enzymes were solubilized by a mixture of digitonin and lysophosphatidylcholine and separated on a DEAE-cellulose column eluted with a discontinuous gradient of NaCl. The Mg2(+)-ATPase activity was eluted with 0.43 M NaCl. The Ca2+,Mg2(+)-ATPase was obtained by increasing the NaCl concentration of the elution medium to 0.40 M. The fraction eluted with 0.043 M NaCl was insensitive to micromolar concentrations of calcium, resistant to oligomycin, ouabain, orthovanadate and thiocyanate, and was inhibited by low concentrations of Triton X-100. The enzyme showed a single apparent Km for MgATP in the range of 0.2 mM and a Vm of 2.9 mumol Pi.min-1.mg-1 protein. Activity was maximal over a broad peak between pH 6.0-8.0. Hydrolysis of ATP was unaffected by dimethylsulfoxide concentrations up to 20% (v/v) and was inhibited at higher concentrations. The enzyme was not phosphorylated by either 32Pi or [gamma-32P]ATP at significant levels when compared with the Ca2+,Mg2(+)-ATPase in an EGTA-containing medium. The kinetic pattern of the Mg2(+)-ATPase was distinctly different from that of the Ca2+,Mg2(+)-ATPase under the same conditions. The fraction eluted from the DEAE-cellulose column was subjected to electrophoresis under non-denaturing conditions. Only one band with Mg2(+)-ATPase activity was detected. The Mg2(+)-ATPase migrated much slower than the Ca2+,Mg2(+)-ATPase under non-denaturing conditions, whereas both enzymes had a molecular mass of 105 kDa on SDS gel electrophoresis.     

Combined H1 and H2 receptor blockade attenuates the cardiovascular effects of high dose atracurium in rabbits

Large doses of atracurium (1.5 mg/kg) (six times the ED95) have been reported to provide adequate conditions for rapid sequence endotracheal intubation within 60 seconds in humans. However, this dose can result in significant histamine release and systemic hypotension. We therefore studied the efficacy of histamine receptor blockade in attenuating this response. Four groups of five rabbits were pretreated as follows: Group I--control, Group II--H1 blockade (1 mg/kg diphenhydramine), Group III--H2 blockade (cimetidine 4 mg/kg), and Group IV--H1 and H2 blockade (diphenhydramine 1 mg/kg and cimetidine 4 mg/kg). All rabbits were anesthetized and then 1.8 mg/kg (six times the rabbit ED95) atracurium was administered. Group I rabbits experienced a decrease in MAP of 12.2 mmHg after one minute, a change that was significantly greater than Group IV in which MAP decreased by 0.8 mmHg (p less than 0.001). H1 or H2 receptor blockade alone was associated with intermediate changes in MAP not significantly different from control. We conclude that combined H1 and H2 receptor blockade attenuates the cardiovascular effects associated with large doses of atracurium in the rabbit and that this combination of antagonist drugs might have similar effectiveness in humans.     

Electrically induced release of radiolabeled histamine from rat hippocampal slices: opposing roles for H1- and H2-receptors

Rat hippocampal slices were preloaded with 3H-histamine and superfused with physiological medium and electrically stimulated in the absence (S1) and in the presence (S2) of drugs. The electrically evoked 3H-overflow consisted mainly of histamine, was Ca++ dependent and completely blocked by tetrodotoxin, all pointing towards an impulse triggered neuronal release. Mepyramine, promethazine and diphenhydramine the H1-antagonists, inhibited the stimulation evoked histamine release in a dose dependent manner. Burimamide and cimetidine, the H2-antagonists, enhanced the stimulation induced release of histamine whereas dimaprit, the H2-antagonist, had the opposite effect. Histamine by itself did not influence its own release. The observations indicate an opposing role for H1- and H2-receptors in modulating spike induced histamine release and represents a functional consequence of the stimulation of the receptors.     

Mechanisms of histamine-induced relaxation in bovine small adrenal cortical arteries

Adrenal steroidogenesis is closely correlated with increases in adrenal blood flow. Many reports have studied the regulation of adrenal blood flow in vivo and in perfused glands, but until recently few studies have been conducted on isolated adrenal arteries. The present study examined vasomotor responses of isolated bovine small adrenal cortical arteries to histamine, an endogenous vasoactive compound, and its mechanism of action. In U-46619-precontracted arteries, histamine (10(-9)-5 x 10(-6) M) elicited concentration-dependent relaxations. The relaxations were blocked by the H(1) receptor antagonists diphenhydramine (10 microM) or mepyramine (1 microM) (maximal relaxations of 18 +/- 6 and 22 +/- 6%, respectively, vs. 55 +/- 5% of control) but only partially inhibited by the H(2) receptor antagonist cimetidine (10 microM) and the H(3) receptor antagonist thioperamide (1 microM). Histamine-induced relaxations were also blocked by the nitric oxide synthase inhibitor N-nitro-L-arginine (L-NA, 30 microM; maximal relaxation of 13 +/- 7%) and eliminated by endothelial removal or L-NA combined with the cyclooxgenase inhibitor indomethacin (10 microM). In the presence of adrenal zona glomerulosa (ZG) cells, histamine did not induce further relaxations compared with histamine alone. Histamine (10(-7)-10(-5) M) concentration-dependently increased aldosterone production by adrenal ZG cells. Compound 48/80 (10 microg/ml), a mast cell degranulator, induced significant relaxations (93 +/- 0.6%), which were blocked by L-NA plus indomethacin or endothelium removal, partially inhibited by the combination of the H(1), H(2), and H(3) receptor antagonists, but not affected by the mast cell stabilizer sodium cromoglycate (1 mM). These results demonstrate that histamine causes direct relaxation of small adrenal cortical arteries, which is largely mediated by endothelial NO and prostaglandins via H(1) receptors. The potential role of histamine in linking adrenal vascular events and steroid secretion requires further investigation.     

Histamine H1 receptors and prostaglandin-histamine interactions modulating contractility of rabbit and rat testicular capsules in vitro

The stimulatory effect of histamine on rabbit and rat testicular capsule was blocked by the H1 blocker, diphenhydramine, but not by the H2 blocker, cimetidine, suggesting the presence of H1 histamine receptors in both rabbit and rat testicular capsules. In the rabbit, both anti-prostaglandin F (PGF) and anti-prostaglandin E (PGE) effaced spontaneous autorhythmic contractions. They markedly inhibited PGF 2 alpha, PGE1 and histamine-stimulated contractions of the rabbit testicular capsule. In the rat, anti-PGF or anti-PGE had no inhibitory effects on the capsular tone, but they both inhibited the stimulatory effects of histamine. These data suggest that the action of histamine on the rabbit and rat testicular capsules could be due partly to a secondary release of the PG's, PGE2 and PGF2 alpha.     

The effects of autacoids on cloned murine lymphoid cells: modulation of IL 2 secretion and the activity of natural suppressor cells

The pharmacologic effects of histamine and isoproterenol (autacoids) were studied on clones of murine T helper (TH) and natural suppressor (NS) cells. The data are consistent with receptors for the autacoids being nonrandomly distributed on phenotypically and functionally distinct clones. The effects of histamine on IL 2 secretion by TH cells could be either inhibitory or stimulatory, depending on the conditions of incubation with the autacoid. When TH cells were pretreated with histamine, their secretion of IL 2 was augmented; conversely, if histamine was added to the TH cells in the presence of antigen, IL 2 secretion was inhibited. The suppressor function of NS cells was enhanced by preincubation with histamine (10(-4) M) for 4 hr before the washed NS cells were added to responder and stimulator cells in mixed lymphocyte cultures. Two H1 receptor antagonists, mepyramine (10(-6) M) and pyrobutamine (10(-7) M), each competitively blocked the histamine activation of the NS cells, but an H2 receptor antagonist cimetidine (10(-5) M) did not alter the suppressor-enhancing function of histamine. Activation of NS cells did not occur if histamine was added with responder, stimulator, and co-cultured cells in MLR. The effects of each autacoid were additive in cytolytic T cells alone. The adenylate cyclase pools that can be stimulated by isoproterenol and histamine in cytolytic T cells may be independent of each other, but further work will be needed to prove this point.     

Histamine directly acts on beta-adrenoceptors as well as H1-histaminergic receptors, and causes positive inotropic effects in isolated ventricular muscles of carp heart (Cyprinus carpio)

1. The mechanism for positive and negative inotropic effects of histamine was studied in electrically stimulated ventricular strips of carp heart. 2. A high concentration of histamine (1 mM) caused a transient negative, and subsequent positive inotropic effects. The positive effect was significantly reduced by pyrilamine, diphenhydramine or dl-propranolol, but was not affected by cimetidine or d-propranolol. 3. Prior treatment with reserpine significantly decreased epinephrine and norepinephrine contents in ventricular muscles, and also almost completely abolished the positive inotropic effect caused by tyramine; however, this treatment failed to affect the positive inotropic effect of histamine. 4. The transient negative inotropic effect was reduced by neither atropine, diphenhydramine, pyrilamine nor cimetidine, and potentiated by pyrilamine. 5. These results suggest that the positive inotropic effect of histamine observed in the ventricular muscle of carp heart is mediated by a direct stimulation of both H1-receptors and beta-adrenoceptors. The negative inotropic effect is unrelated to either cholinergic or histaminergic receptor stimulation.     

A role for histamine and histamine H2-receptors in non-opiate footshock-induced analgesia

Scrambled DC current applied to the hind paws of rats caused an analgesic response that was inhibited by the histamine H2-receptor antagonists cimetidine, ranitidine and oxmetidine, but not by high doses of naloxone (the opiate antagonist), or other transmitter receptor antagonists. In contrast, AC current applied to all paws produced analgesia that was blocked by naloxone, but not cimetidine, showing the independence of these systems. These findings indicate a specific role for histamine and H2-receptors as mediators of endogenous non-opiate analgesia. In addition, a combination of cimetidine and naloxone did not abolish either form of footshock analgesia, implying the existence of a non-opiate, non-H2, endogenous pain-relieving system. These results also suggest that drugs capable of penetrating the brain and stimulating H2-receptors might have analgesic properties.     

Localization of (3H)histamine and (3H)prostaglandin E2 receptors in isolated cells of rat gastric mucosa

Isolated cells of rat gastric mucosa were obtained by treatment of rat stomach with pronase. Two fractions were isolated, one of which was rich (up to 90%) and the second one poor (to 25%) of parietal cells. Using specific antagonists and agonists of H1- and H2-receptors of histamine (diphenhydramine, metiamide, cimetidine, impromidine, dimaprit) the H2-receptors of histamine were shown to be localized in parietal cells. A preferential binding of (3H)prostaglandin E2 by the receptor proteins of plasma membranes of non-parietal (presumably mucoid) cells was found. The data obtained indicate that rat gastric mucosa contains receptors of histamine and PGE2 which differ in their intracellular localization and strictly selectively bind (3H)histamine and (3H)PGE2. It is assumed that the starting point in the mechanism of action of these intercellular regulators on gastric secretion is probably the process of their specific recognition by the protein receptors localized in functionally different cells.     

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.     

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.     

Demonstration of histamine H2 receptors on human melanoma cells

Histamine induced a concentration-dependent increase in intracellular cyclic-AMP of the two human melanoma cell lines SK23 and DX3.LT5.1; maximal stimulation was obtained with 17.8 microM histamine which consistently produced greater than 50-fold increases in the cyclic AMP content of both cell lines. The dose-response curve for histamine in each culture was progressively displaced to the right with increasing concentrations of the histamine H2 receptor antagonist cimetidine. Ranitidine, another H2 receptor antagonist also prevented the histamine-induced cyclic AMP elevation, but the H1 receptor antagonists mepyramine and tripelennamine had no significant effect. These findings indicate that human melanoma cells express histamine H2 receptors, stimulation of which activates adenylate cyclase with a subsequent rise in intracellular cyclic AMP. Mast cell:melanoma interactions mediated by histamine in vivo might therefore be expected to modify some aspects of melanoma cell behaviour.     

A rapid and gentle method for the salt extraction of chromatin core histones H2A,H2B,H3 and H4 from rat liver nuclei

A complex of histones H2A, H2B, H3 and H4 has been isolated from purified rat liver nuclei by a method which is both gentle and rapid. Nuclei were homogenised in 0.25 M sucrose and the residual nuclear material obtained after centrifligation was adsorbed on calcium phosphate gel. After removing histone H1 from the adsorbed material by washing with 1M NaCl in 25 mM sodium phosphate buffer, pH 6.0, histones H2A, H2B, H3 and H4 were eluted together, with 2 M NaCl in 25 mM sodium phosphate buffer, pH 7.0. The core histones so obtained migrated as a single sharp band on polyacrylamide gel electrophoresis under non-denaturing conditions. Fractionation of the freshly prepared core histones on a Sephadex G-100 column yielded two major protein peaks. The peak having the larger elution volume contained histones H2A and H2B in equal amounts while the peak with the smaller elution volume contained all the four histones. Histones H3 and H4 were present in larger proportions in the second peak.