Christian Leschke scite author profile

New histamine derivatives characterized by a (substituted) aryl, heteroaryl, benzyl, or heteroarylmethyl substituent in the C2 position of the imidazole ring have been prepared from appropriate imidates or amidines, respectively, and 2-oxo-4-phthalimido-1-butyl acetate (1). The compounds were screened as potential H1 receptor agonists on the isolated guinea pig ileum. The 3-halogenated 2-phenylhistamines (halogen = Br (35) and I (36)) were equipotent with histamine, while 2-(3-(trifluoromethyl)phenyl)histamine (2-[2-(3-(trifluoromethyl)phenyl)-1H-imidazol-4-yl]ethanamine (39)) was significantly more potent than histamine (39: pD2 = 6.81, relative activity = 128%). The 2-substituted histamine analogues were partial H1 receptor agonists on the endothelium-denuded isolated guinea pig aorta with pEC50 values generally smaller than observed on the guinea pig ileum, but the rank order of potency was found to be similar. The contractile effects on guinea pig ileum and aorta, respectively, could be blocked concentration-dependently by the H1 receptor antagonist mepyramine, yielding KB values for mepyramine in the nanomolar range. In vitro compounds 35 and 39 bound to [3H]mepyramine-labeled guinea pig cerebellar membranes with a pKi of 6.1 and 5.9, respectively. However, upon iv administration, 35 (3-100 mg/kg) and 39 (3-300 mg/kg) failed to inhibit the binding of [3H]mepyramine to mouse cerebral cortex in vivo, thereby indicating that these histamine derivatives are not able to penetrate the blood-brain barrier. In functional in vitro studies on histamine H2, H3, and other neurotransmitter receptors the selectivity of 39 was found to be 2138 (H1:H2), > 64 (H1:H3), 1000 (H1:M3), 105 (H1:alpha 1), 708 (H1:beta 1), and 71 (H1:5HT2A). Thus compound 39 is the most potent and selective H1 receptor agonist reported so far. These results make meta-substituted 2-phenylhistamines, especially 2-(3-(trifluoromethyl)phenyl)- and 2-(3-bromophenyl)histamine (39 and 35, respectively) valuable experimental tools for the selective stimulation of histamine H1 receptors and the study of H1 receptor-mediated functions.

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Developments in histamine H1-receptor agonists

Zingel¹,

Leschke²,

Schunack³

1995

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Alkyl-Substituted Amino Acid Amides and Analogous Di- and Triamines: New Non-Peptide G Protein Activators

et al. 1997

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Synthesis and pharmacological properties of new potent direct activators of heterotrimeric G proteins are described. Compounds were synthesized from protected amino acids with alkylamines using coupling reagents (CDI, DCC, and EDC). Alkyl-substituted amino acid amides and their corresponding di- and triamines were subjected to structure-activity analysis. All compounds activated membrane-bound HL-60 GTPases in a pertussis toxin-sensitive fashion. This suggests a specific effect of compounds on the carboxy terminus of a defined subclass of heterotrimeric G proteins, i.e., members of the G alpha i subfamily. Elongation of the alkyl chain and increasing the number of amino groups enhanced the potency of compounds on HL-60 membrane-bound GTPase. N-(2,5-Diaminopentyl)dodecylamine (21) was selected to study its mode of action employing purified pertussis toxin-sensitive G proteins. It stimulated G alpha subunits by inducing the release of bound GDP. In contrast to receptors G beta gamma complexes were not required for 21-mediated activation of G alpha. Moderate isoform selectivity of its action was observed within a group of highly homologous members of the Gi subfamily with G alpha o1 being activated at lowest concentrations, whereas higher concentrations were necessary for the stimulation of G alpha i1 or transducin. We conclude that these compounds represent important tools for studying G protein-dependent cellular functions.

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Histamine receptor-dependent and/or -independent activation of guanine nucleotide-binding proteins by histamine and 2-substituted histamine derivatives in human leukemia (HL-60) and human erythroleukemia (HEL) cells

Hagelüken

Grünbaum

Klinker

et al. 1995

Biochemical Pharmacology

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Developing an Automated Robotic Factory for Novel Stem Cell Therapy Production

et al. 2016

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