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  2. Studies on the novel antiallergic agent HSR-609: its penetration into the central nervous system in mice and guinea pigs and its selectivity for the histamine H1-receptor

Studies on the novel antiallergic agent HSR-609: its penetration into the central nervous system in mice and guinea pigs and its selectivity for the histamine H1-receptor

  • Jpn J Pharmacol. 1997 Apr;73(4):291-8. doi: 10.1254/jjp.73.291.
M Kakiuchi 1 T Ohashi K Musoh K Kawamura K Morikawa H Kato
Affiliations

Affiliation

  • 1 Research and Development Division, Hokuriku Seiyaku Co., Ltd., Fukui, Japan.
Abstract

We studied the pharmacological characteristics of HSR-609 (3-[4-(8-fluoro-5,11-dihydrobenz[b]oxepino[4,3-b]pyridin-11- ylidene)- piperidino]propionic acid dihydrate), a novel amphoteric antiallergic agent, on the central nervous system (CNS). Its selectivity for the histamine H1-receptor and its ability to penetrate into the CNS were compared with those of typical antiallergic agents and the nonamphoteric basic compound PY-608 (8-fluoro-5,11-dihydro-11-(1-methyl-4-piperidylidene)benz[b]oxe pino- [4,3-b]pyridine), which has a chemical structure similar to that of HSR-609. In the in vitro study, HSR-609 had a high affinity for H1-receptors in the guinea pig cerebral cortex in comparison to affinities for muscarinic and serotonin 5-HT2-receptors in the rat cerebral cortex, while the selectivity of PY-608 for the H1-receptor was low. The inhibitory effects of these antiallergic agents on histamine-induced increase of vascular permeability in mice (ED50) were compared with the displacement of [3H]mepyramine binding to H1-receptors in mouse brain ex vivo (ID50). The ID50/ED50 ratio of HSR-609 was much larger than those of cyproheptadine, ketotifen and PY-608 and larger than those of terfenadine and cetirizine. HSR-609 was found to display selective displacement of the [3H]mepyramine binding to H1-receptors for lung vs cerebral cortex as found with terfenadine in guinea pigs ex vivo. These findings suggest that HSR-609 has high selectivity for the H1-receptor and poor ability to penetrate into the CNS in mice and guinea pigs due to its amphoteric chemical structure.

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