22808-17-9Relevant articles and documents
Synthesis and pharmacology of combined histamine H1-/H2-receptor antagonists containing diphenhydramine and cyproheptadine derivatives
Wolf, Cornelia,Schunack, Walter
, p. 87 - 94 (2007/10/02)
The classical histamine H1-receptor antagonists diphenhydramine (3a) and cyproheptadine (9) and their derivatives (3b-d, 10) were connected with a 2-guanidinothiazole containing structure (28) derived from the H2-receptor antagonist tiotidine in order to obtain combined H1/H2-receptor antagonists. The two moieties were not directly linked together, but were separated by a polymethylene spacer and a polar group (nitroethenediamine or urea). Thus 12 compounds were obtained that proved in vitro to possess high H1- and H2-receptor antagonist activity at the isolated guinea-pig ileum (H1) and the isolated guinea-pig right atrium (H2), respectively. The incorporation of the diphenhydramine as well as the cyproheptadine component provides high affinity to H1-receptors. The tricyclic cyproheptadine and its 10,11-dihydro derivative (30-32, 34), however, cause a decrease of H2-receptor antagonist potency compared to the diphenhydramines (29a-d, 33a-d). Using nitroethenediamine as the polar group is apparently more favourable to H1- and H2-receptor affinity as the urea function. All compounds elicit a dual mode of competitive and noncompetitive antagonism. Among the novel compounds the nitroethenediamines with 4-fluoro- or 4-methyl-substituted diphenhydramine as H1-receptor antagonist moiety (29c, d) display the most potent H1- and H2-receptor antagonist effects. The presented concept is a very promising way to combine H1- and H2-receptor antagonist properties in one molecule.