Imidazoline and guanidinium compounds such as clonidine and guanabenz elicit a wide variety of responses in both the central nervous system and peripheral tissues. Although many of these cellular effects are mediated by alpha2-adrenergic receptors, both functional and radioligand binding studies indicate that this class of pharmacologically active compounds interact with a cellular protein (IGRS) distinct from the alpha2- adrenergic receptor. Indeed, IGRS does not recognize catecholamines or other known neurotransmitters but does recognize an endogenous clonidine displacing substance purified from brain suggesting the existence of a previously unidentified hormonal/neurotransmitter-receptor system. Detailed analysis of this system and IGRS is limited by the lack of high- specific activity probes selective for the receptor protein. The continued objectives of this proposal are the synthesis and utilization of functionalized molecular probes for the imidazoline/guanidinium receptive site (IGRS), a potentially important receptor involved in metabolic and cardiovascular regulation. IGRS selective molecules developed during the Phase I study will be modified to generate 1) radiolabeled ligands for cell localization of IGRS 2) a radioiodinated photoaffinity adduct for identification of ligand binding subunit 3) suitable ligand for receptor protein purification. Extensive SAR studies of cirazoline-type molecules will be carried out to generate IGRS specific molecules for functional studies.
Lanier, S M; Raddatz, R; Parini, A (1998) Relationship between alpha 2-adrenergic receptors and imidazoline/guanidinium receptive sites. Adv Pharmacol 42:474-7 |
Raddatz, R; Lanier, S M (1997) Relationship between imidazoline/guanidinium receptive sites and monoamine oxidase A and B. Neurochem Int 30:109-17 |
Lanier, B; Raddatz, R; Bakthavachalam, V et al. (1995) Structural and ligand recognition properties of imidazoline binding proteins in tissues of rat and rabbit. Mol Pharmacol 48:703-10 |