Structure - activity studies with histamine H3 - receptor ligands

Analogues of thioperamide have been synthesised and tested in vitro on rat cerebral cortex to explore structure-activity relationships with the intention of designing compounds which do not possess the thiourea group of thioperamide and which may have improved brain penetration. Compounds derived from histamine and having an aromatic nitrogencontaining heterocyc1e on the side-chain amino group have been found to act as H3 - antagonists. These have served as leads to provide aryloxyethyl- and aryloxypropylimidazoles which are potent H3 antagonists of histamine. Structure-activity relationships for agonists are brief1y reviewed. Analogues of the very potent and selective agonist, imetit (S-[2-imidazol-4-yl)ethyl]isothiourea) have been studied to explore the transition between agonist, partial agonist and antagonist. The isosteric isourea is also a potent agonist. N,N' -Dibutyl-[S-[3-(imidazol-4-yl)propyl]isothiourea is a very potent antagonist having K¡=1.5 nM.Se han sintetizado análogos de tioperamida. Los compuestos han sido ensayados in vitro para explorar los factores que permitan diseñar compuestos derivados de la tioperamida sin grupo tiourea que mejoren la penetración cerebral. Los compuestos más activos como H3-antagonistas contienen un átomo de nitrógeno aromático hetorocíclico sobre la cadena lateral. Estos compuestos se han empleado como cabeza de serie para obtener potentes H3-antagonistas de histarnina con estructura de ariloxietil y ariloxipropilimidazoles. Las relaciones estructura actividad de agonistas se han revisado brevemente. Se han estudiado un grupo de análogos de (S-[2-imidazol-4-il)etil]isotiourea (imetit) con el objeto de explorar la transición entre agonistas y antagonistas. N,N' -dibutil-[S-[3-(imidazol- 4-il)propil]isotiourea es un muy potente antagonistas que tiene Ki=1.5 nM

1-[2,4,6-Trimethyl-3,5-bis­(4-oxopiperidin-1-ylmeth­yl)benz­yl]piperidin-4-one

In the structure of the title compound, C27H39N3O3, each of the (4-oxopiperidin-1-yl)methyl residues adopts a flattened chair conformation (with the N and carbonyl groups being oriented to either side of the central C4 plane) and they occupy positions approximately orthogonal to the central benzene ring [Cbenzene—C—Cmethyl­ene—N torsion angles 103.4 (2), −104.4 (3) and 71.9 (3)°]; further, two of these residues are oriented to one side of the central benzene ring with the third to the other side. In the crystal packing, supra­molecular layers in the ab plane are sustained by C—H⋯O inter­actions

Histamine receptor activation by unsaturated (allyl and propargyl) homologs of histamine

The spectrum of agonist activity for three new homologs of histamine (cis- and trans-imidazolylallylamine and imidazolylpropargylamine) was evaluated in the isolated guinea pig ileum and right atrium. The homologs were about three log units less potent than histamine in stimulating contractions of the longitudinal muscles of the ileum, but they were histamine-like, pharmacologically, because they were sensitive to blockade by pyrilamine and resistant to blockade by atropine. In the right atrium, these weak agonists were partially sensitive to blockade by cimetidine. The agonist activity of the cis-isomer in particular was completely blocked by a combination of cimetidine and propranolol, but resistant to reserpine treatment (neuronal catecholamine depletion). Therefore, these homologs of histamine have the ability to stimulate H 1 - and H 2 -histamine receptors and beta -adrenoreceptors in vitro .Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/44880/1/11_2005_Article_BF01966582.pd

Structure - activity studies with histamine H3 - receptor ligands

Se han sintetizado análogos de tioperamida. Los compuestos han sido ensayados in vitro para explorar los factores que permitan diseñar compuestos derivados de la tioperamida sin grupo tiourea que mejoren la penetración cerebral. Los compuestos más activos como H3-antagonistas contienen un átomo de nitrógeno aromático hetorocíclico sobre la cadena lateral. Estos compuestos se han empleado como cabeza de serie para obtener potentes H3-antagonistas de histarnina con estructura de ariloxietil y ariloxipropilimidazoles. Las relaciones estructura actividad de agonistas se han revisado brevemente. Se han estudiado un grupo de análogos de (S-[2-imidazol-4-il)etil]isotiourea (imetit) con el objeto de explorar la transición entre agonistas y antagonistas. N,N' -dibutil-[S-[3-(imidazol- 4-il)propil]isotiourea es un muy potente antagonistas que tiene Ki=1.5 nM.Analogues of thioperamide have been synthesised and tested in vitro on rat cerebral cortex to explore structure-activity relationships with the intention of designing compounds which do not possess the thiourea group of thioperamide and which may have improved brain penetration. Compounds derived from histamine and having an aromatic nitrogen containing heterocyc1e on the side-chain amino group have been found to act as H3 - antagonists. These have served as leads to provide aryloxyethyl- and aryloxypropylimidazoles which are potent H3 antagonists of histamine. Structure-activity relationships for agonists are brief1y reviewed. Analogues of the very potent and selective agonist, imetit (S-[2-imidazol-4-yl)ethyl]isothiourea) have been studied to explore the transition between agonist, partial agonist and antagonist. The isosteric isourea is also a potent agonist. N,N' -Dibutyl-[S-[3-(imidazol-4-yl)propyl]isothiourea is a very potent antagonist having K¡=1.5 nM

Histamine H 1 -Receptor in Heart: Unique Electrophoretic Mobility and Autoradiographic Localization

International audienceHistamine H1-receptors, visualized in the guinea pig heart by autoradiography using [125I]iodobolpyramine as a specific probe, are abundant in the nodal tissue and cardiac vessels but also occur heterogeneously in the myocardium. Following photoaffinity labeling with [125I]iodoazidophenpyramine and electrophoresis, the ligand binding domain of the heart H1-receptor was shown to be present on a major 68-kDa and a less abundant 54- to 58-kDa protein. The 68-kDa protein displayed a molecular size higher in heart than in all other tissues (56 kDa). This indicates the existence of at least two isoforms of the H1-receptor; the cardiac isoform, however, was pharmacologically indistinguishable from the common isoform studied in cerebellar membranes using available ligands. Its distinct electrophoretic properties suggest that the cardiac isoform may have a unique function