1. (R)-alpha-methylhistamine, a selective agonist of histamine H(3) receptors, promotes mucus secretion and increases the number and volume of mucus-secreting cells. The hypothesis that the increased number of mucous cells could reside in an alteration of homeostasis in the gastric epithelium was investigated. 2. (R)-alpha-methylhistamine was administered to rats 1 h (10-100 mg kg(-1) by intragastric and by intraperitoneal route) and 24 h (100 mg kg(-1) by intragastric route) prior to killing. The (S)-isomer of alpha-methylhistamine (55.4 mg kg(-1)), 100 times less potent than the (R)-isomer at H(3) receptors, and the H(3)-receptor agonist FUB 407 (9.14-91.35 mg kg(-1)) were intragrastically administered 1 h prior to killing. The H(1)-receptor antagonist mepyramine (30 mg kg(-1)), the H(2)-receptor antagonist famotidine (3 mg kg(-1)), and the H(3)-receptor antagonists ciproxifan (3 mg kg(-1)) and clobenpropit (30 mg kg(-1)) were intragastrically administered 30 min before (R)-alpha-methylhistamine. Gastric tissue was processed for histology and immunohistochemistry. 3. Within 1 h, (R)-alpha-methylhistamine and FUB 407 dose-dependently increased the number of BrdU-positive cells and of apoptotic cells. (S)-alpha-methylhistamine failed to modify proliferation and apoptosis. The increase in proliferation by (R)-alpha-methylhistamine was reversed by ciproxifan and clobenpropit, but not by mepyramine and famotidine. 4. (R)-alpha-methylhistamine accelerated the differentiation towards pit cells and their outward migration 24 h after its administration. These effects were counteracted by ciproxifan. The apoptosis rate was unaffected at 24 h. 5. These findings reveal a primary role of histamine H(3)-receptor ligands in modulating cell proliferation and migration in rat fundic mucosa.
Abstract A series of water‐soluble (benzoyloxy)methyl esters of acetylsalicylic acid (ASA), commonly known as aspirin, are described. The new derivatives each have alkyl chains containing a nitric oxide (NO)‐releasing nitrooxy group and a solubilizing moiety bonded to the benzoyl ring. The compounds were synthesized and evaluated as ASA prodrugs. After conversion to the appropriate salt, most of the derivatives are solid at room temperature and all possess good water solubility. They are quite stable in acid solution (pH 1) and less stable at physiological pH. In human serum, these compounds are immediately metabolized by esterases, producing a mixture of ASA, salicylic acid (SA), and of the related NO‐donor benzoic acids, along with other minor products. Due to ASA release, the prodrugs are capable of inhibiting collagen‐induced platelet aggregation of human platelet‐rich plasma. Simple NO‐donor benzoic acids 3‐hydroxy‐4‐(3‐nitrooxypropoxy)benzoic acid ( 28 ) and 3‐(morpholin‐4‐ylmethyl)‐4‐[3‐(nitrooxy)propoxy]benzoic acid ( 48 ) were also studied as representative models of the whole class of benzoic acids formed following metabolism of the prodrugs in serum. These simplified derivatives did not trigger antiaggregatory activity when tested at 300 μ M . Only 28 displays quite potent NO‐dependent vasodilatatory action. Further in vivo evaluation of two selected prodrugs, {[2‐(acetyloxy)benzoyl]oxy}methyl‐3‐[(3‐[aminopropanoyl)oxy]‐4‐[3‐(nitrooxy)propoxy]benzoate⋅HCl ( 38 ) and {[2‐(acetyloxy)benzoyl]oxy}methyl 3‐(morpholin‐4‐ylmethyl)‐4‐[3‐(nitrooxy)propoxy]benzoate oxalate ( 49 ), revealed that their anti‐inflammatory activities are similar to that of ASA when tested in the carrageenan‐induced paw edema assay in rats. The gastrotoxicity of the two prodrugs was also determined to be lower than that of ASA in a lesion model in rats. Taken together, these results indicated that these NO‐donor ASA prodrugs warrant further investigation for clinical application.
(R)-alpha-methylhistamine, a selective agonist of histamine H(3) receptors, is capable of protecting the gastric mucosa against differently acting damaging agents. The objective of the present study was to determine whether H(3) receptors mediate its protective action in the rat. Gastric mucosal lesions were induced intragastrically (i.g.) by 0.6 N HCl, 1 ml rat(-1). (R)-alpha-methylhistamine, 100 mg kg(-1) i.g., substantially reduced the severity of macroscopically and histologically assessed damage caused by concentrated acid. Prior treatment with highly selective H(3)-receptor antagonists, ciproxifan (0.3, 1 and 3 mg kg(-1) i.g.) and clobenpropit (3, 10 and 30 mg kg(-1) i.g.), dose-dependently inhibited the protection exerted by (R)-alpha-methylhistamine up to a complete reversal. When given alone at high doses, both antagonists tended to worsen the HCl-induced histologic damage. During basal conditions, (R)-alpha-methylhistamine, 100 mg kg(-1) i. g., caused a significant increase in titratable acidity of the gastric juice. Prior treatment with ciproxifan (3 mg kg(-1) i.g.) and clobenpropit (30 mg kg(-1) i.g.) did not alter the secretory response to (R)-alpha-methylhistamine. Clobenpropit alone, but not ciproxifan, increased the volume of gastric juice, and both compounds alone had no effect on titratable acid. Present findings support evidence that H(3) receptors are actively involved in the maintenance of gastric mucosal integrity, with no apparent role in the regulation of basal gastric acid secretion.
A new class of products in which the phenol group of salicylic acid is linked to alkanoyl moieties bearing nitrooxy functions has been synthesized and studied for their polyvalent actions. The products were stable in acid and neutral media, while they were hydrolyzed in human serum. Their half-lives were dependent upon the structure of alkanoyl moieties. The products showed anti-inflammatory activities similar to aspirin when tested in the carrageenan-induced paw edema assay in the rat. Interestingly, unlike aspirin, they showed reduced or no gastrotoxicity in a lesion model in rats at equimolar doses. A number of them were able to inhibit platelet aggregation induced by collagen in human platelet-rich plasma. All of the products were capable of relaxing rat aortic strips precontracted with phenylephrine in a concentration-dependent manner. Selected members of this new class of nonsteroidal anti-inflammatory drugs might represent possible safer alternatives to aspirin in different clinical settings.
