Amthamine dihydrobromide

The role of histamine in the regulation of the viability, proliferation and transforming growth factor beta1 secretion of rat wound fibroblasts.[Pubmed:28178593]

Pharmacol Rep. 2017 Apr;69(2):314-321.

BACKGROUND: Inflammation mediators play a regulatory role in repair processes. The study will examine the influence of histamine on wound fibroblast metabolic activity, viability, proliferation, and TGFbeta1 secretion. The study also will identify the histamine receptor involved in regulation of the tested repair processes. METHODS: Fibroblasts were obtained from the granulation tissue of wounds or intact dermis of rats. The MTT and BrdU assays were used to examine the effect of histamine (10(-8)M-10(-4)M) on the viability and metabolic activity of fibroblasts, and on their proliferative capacity. The influence of histamine receptor antagonists (i.e., ketotifen, ranitidine, ciproxifan and JNJ7777120) and agonists (2-pyridylethlamine dihydrochloride, Amthamine dihydrobromide) was also investigated. The TGFbeta1 and histamine receptors H1 were evaluated by enzyme-linked immunosorbent assay. RESULTS: Histamine significantly increased granulation tissue fibroblast viability and metabolic activity at 10(-8) and 10(-6)M but did not change their proliferative activity. Only the blockade of the H1 receptor removed this effect of histamine. H1 receptor agonist (2-pyridylethlamine dihydrochloride) increased cell viability, thereby mimicking histamine action. Both Histamine (10(-4)M) and 2-pyridylethlamine dihydrochloride increased TGFbeta1 concentration in cell culture medium. However, ketotifen blocked histamine-induced augmentation of TGFbeta1. H1 receptor expression on wound fibroblasts was confirmed. CONCLUSION: The regulatory influence of histamine on wound fibroblast function (viability/metabolic activity or secretion of TGFbeta1) is dependent on H1 receptor stimulation. Contrary to wound fibroblasts, these cells express a very low level of H1 receptors when isolated from intact dermis and histamine is unable to modify their metabolic activity.

Histamine decreases myogenic tone in rat cerebral arteries by H2-receptor-mediated KV channel activation, independent of endothelium and cyclic AMP.[Pubmed:16920098]

Eur J Pharmacol. 2006 Oct 10;547(1-3):116-24.

The effect of histamine on the pressure-induced constriction was characterized in rat cerebral arteries and mechanisms were investigated. Rat cerebral arteries were pressurized to 70 mm Hg in an arteriograph and the effect of histamine on myogenic tone was studied. Histamine and amthamine, a selective histamine H(2)-receptor agonist, concentration-dependently decreased myogenic tone, which was unchanged in the absence of endothelium. 2-(2-aminoethyl) pyridine, a selective histamine H(1)-receptor agonist, produced concentration-dependent constriction of arteries that was significantly increased in the absence of endothelium. Imetit, a selective histamine H(3)-receptor agonist, has no effect on myogenic tone. The dilation to histamine was antagonized by tiotidine, a selective antagonist of histamine H(2)-receptor subtype, giving a pK(B) of 7.86 that was not altered in the absence of endothelium. The histamine-mediated dilation was significantly antagonized by NF 449, a reversible inhibitor of Gs-protein activation but was not affected by ODQ and SQ 22536. Dilations to histamine and amthamine were accompanied by a decrease in arterial wall calcium measured by fura-2 ratios. The dilation to histamine was significantly reduced by partial depolarization of smooth muscle by 25 mM KCl (control 91+/-5%, 25 mM KCl 53+/-5%, P<0.002) and was not observed in the presence of strongly depolarizing 60 mM KCl. The histamine dilation was not affected by iberiotoxin, barium chloride and glibenclamide but was strongly antagonized by 4-aminopyridine (0.3 mM) and tetraethylammonium chloride (10 mM) (pEC(50): control: 5.6+/-0.1, 4-aminopyridine: 4.1+/-0.1 (P<0.001); tetraethylammonium chloride: 3.2+/-0.2 (P<0.0001)). These results suggest that histamine-mediated reversal of myogenic tone in rat cerebral arteries is endothelium-independent, mediated by histamine H(2)-receptor subtype with no involvement of guanylyl cyclase or adenylyl cyclase activation and most likely involves activation of K(V) potassium channels.

The new potent and selective histamine H2 receptor agonist amthamine as a tool to study gastric secretion.[Pubmed:8377843]

Naunyn Schmiedebergs Arch Pharmacol. 1993 Jul;348(1):77-81.

The new histamine H2 receptor agonist amthamine, [2-amino-5-(2-aminoethyl)-4-methylthiazole], was tested for its activity on gastric acid secretion in different in vivo and in vitro experimental models. Amthamine induced a dose-related increase in acid secretion both in conscious cats with a gastric fistula (ED50 = 0.069 mumol/kg/h) and in anaesthetized rats with a lumen-perfused stomach (ED50 = 11.69 mumol/kg i.v.). In this last preparation the efficacy of amthamine was significantly higher than that of histamine and dimaprit. Amthamine was an effective secretagogue also in the rat isolated gastric fundus, behaving as a full agonist (EC50 = 18.9 mumol/l). In all the experimental models amthamine was more potent than dimaprit (from 3 to 10 fold) and approximately equipotent with histamine, and its effect was competitively antagonized by the histamine H2 receptor antagonists famotidine or ranitidine. Experiments with H1 and H3 receptor antagonists indicated that amthamine is devoid of stimulatory activity at H1 and H3 receptors. The present data indicate that amthamine is a full agonist at histamine H2 receptors and, being more effective and selective than the other compounds of the family, it may represent a good alternative to the other available histamine H2 receptor agonists for the study of gastric acid secretion.

In vitro cardiac pharmacology of the new histamine H2-receptor agonist amthamine: comparisons with histamine and dimaprit.[Pubmed:8147269]

Agents Actions. 1993 Sep;40(1-2):44-9.

The cardiac activity of the novel histamine H2-receptor agonist amthamine was investigated in a variety of isolated heart preparations from guinea pigs and humans and in the isolated rabbit aorta. Amthamine caused an increase in the sinus rate of spontaneously beating guinea-pig atria (pD2 = 6.72) and in the contractility of the electrically driven guinea-pig papillary muscle (pD2 = 6.17) and of the human atrium (pD2 = 5.38). In all these systems, amthamine behaved as a full agonist with a potency comparable to or slightly higher than that of histamine and 10 times higher than that of dimaprit. The positive effects of amthamine were competitively antagonized by ranitidine which had pA2 values (6.46 and 6.25 in the guinea-pig atria and papillary muscle, respectively) comparable with those calculated against histamine and dimaprit. In the isolated rabbit aorta amthamine was devoid of H1-mediated activities up to 3 x 10(-4) M. These results indicate that amthamine is a potent and selective histamine H2-receptor agonist which can be considered a valuable tool for investigating H2-receptor mediated effects in cardiac tissues.

Histamine H2-receptor agonists. Synthesis, in vitro pharmacology, and qualitative structure-activity relationships of substituted 4- and 5-(2-aminoethyl)thiazoles.[Pubmed:1507209]

J Med Chem. 1992 Aug 21;35(17):3239-46.

It is well known that both histamine and dimaprit show moderate histamine H2-receptor agonistic activities on the guinea pig right atrium. Quantum chemical calculations on these two compounds showed similarities in electron distributions and molecular electrostatic potentials (MEP's), which could be extended to rigid analogues [2-amino-5-(2-aminoethyl)thiazoles] of the latter structure. On the base of these results a series of substituted 4- and 5-(2-aminoethyl)thiazoles was synthesized applying small alkyl substitution variations as reported for histamine. 2-Amino-5-(2-aminoethyl)-4-methylthiazole (Amthamine) proved to be the most potent full histamine H2-receptor agonist on the guinea pig right atrium, being with a pD2 value of 6.21 slightly more potent than histamine. This compound shows no affinity for H1-receptors and is a full but weak agonist on the histamine H3-receptor with a pD2 value of 4.70, thus showing a marked specificity for histamine H2-receptors. In the 5-(2-aminoethyl)thiazole series the presence of a 2-amino substituent proved to be not essential for stimulation of the histamine H2-receptor, leading to the important conclusion that in contrast to histamine, for this series, acceptance of a proton by the thiazole nucleus of the agonist from the active site of the receptor is sufficient for the stimulation of the histamine H2-receptor.