Literature

Abstract

Our previous work on pyridazinone-arylpiperazine derivatives suggested some structural features that a compound should have to show high affinity and good selectivity for alpha(1) adrenoceptors (AR) with respect to alpha(2)-AR. Accordingly, two classes of new alkoxyphenylpiperazinylheptylpyridazinones were designed and synthesized to evaluate the effect of the alkoxy substituent on affinity and selectivity. As expected, affinity increased with larger alkoxy groups. Affinity values are all comparable with that of the reference compound (prazosin), with the exception of compound 1c found 4.5-fold more active than prazosin.

DOI： 10.1016/s0960-894x(02)00932-0

α1-Adrenoceptor antagonists. 5. Pyridazinone-arylpiperazines. Probing the influence on affinity and selectivity of both ortho-Alkoxy groups at the arylpiperazine moiety and cyclic substituents at the pyridazinone nucleus

Bioorganic & Medicinal Chemistry Letters 2003.0

α1-Adrenoceptor Antagonists. 6. Structural Optimization of Pyridazinone−Arylpiperazines. Study of the Influence on Affinity and Selectivity of Cyclic Substituents at the Pyridazinone Ring and Alkoxy Groups at the Arylpiperazine Moiety

Journal of Medicinal Chemistry 2003.0

Synthesis and biological affinity of new imidazo- and indol-arylpiperazine derivatives: Further validation of a pharmacophore model for α1-adrenoceptor antagonists

Bioorganic & Medicinal Chemistry Letters 2008.0

Synthesis, Biological Evaluation, and Pharmacophore Generation of New Pyridazinone Derivatives with Affinity toward α1- and α2-Adrenoceptors

Journal of Medicinal Chemistry 2001.0

Phenylpiperazinylalkylamino Substituted Pyridazinones as Potent α1 Adrenoceptor Antagonists

Journal of Medicinal Chemistry 2001.0

N-Arylpiperazinyl-N‘-propylamino Derivatives of Heteroaryl Amides as Functional Uroselective α1-Adrenoceptor Antagonists