Synthesis and pharmacological activity of fluorescent histamine H1 receptor antagonists related to mepyramine.

Fluorescently labeled histamine H(1) receptor antagonists were synthesized starting from N-demethylmepyramine by introduction of omega-aminoalkyl chains (2-8 methylene groups in length) followed by derivatization of the terminal NH(2) group with various fluorophores (fluorescein, naphthofluorescein, rhodamine, tetramethylrhodamine, BODIPY, dansyl, and nitrobenzoxadiazole (NBD)). On the isolated guinea pig ileum and in a Ca(2+) assay on U373MG human glioblastoma cells the highest H(1) antagonistic activities were found in 5- and 6-carboxyfluorescein labeled compounds with hexa- and octamethylene spacers and in an analogous NBD-aminohexanoyl derivative (pA(2) or pK(B) values in the range: 8.3-9.0; compared to 9.3-9.4 for mepyramine).

GBR compounds and mepyramines as cocaine abuse therapeutics: chemometric studies on selectivity using grid independent descriptors (GRIND).

Cocaine is one of the most widely abused drugs in the industrial world. Substantial evidence has accumulated that the dopamine transporter (DAT) is a key target for cocaine regarding its reinforcing effects. This work describes the application of chemometric methods to a data set of 54 N(1)-benzhydryl-oxy-alkyl-N(4)-phenyl-alk(en)yl-piperazines (GBR compounds) and chemically related mepyramines as putative candidates in cocaine abuse therapy. The aim of the study is to gain insight into the structural requirements that determine the affinity of the data set molecules to the DAT and the serotonin transporter (SERT) as well as their inhibitory potency on dopamine uptake. The compounds in the dataset are described using the recently developed GRID independent descriptors (GRIND), which allow one to obtain fast three-dimensional quantitative structure-activity relationship models without the need of aligning and superimposing the structures; the results are interpreted in a convenient pharmacophoric-like fashion. In the first part of the work, the selectivity of the database molecules for DAT binding vs dopamine reuptake inhibition is investigated. In the second part, the selectivity of the compounds for DAT binding vs SERT binding is studied. In both cases, significant models are obtained, which define the structural features responsible for the respective selectivity profiles. Moreover, the information has potential interest for the design of new derivatives with improved selectivity.

[Synthesis and combined H1-/H2 antagonist activity of mepyramine, pheniramine and cyclizine derivatives with cyanoguanidine, urea and nitroethenediamine partial structures]. / Synthese und kombinierte H1-/H2-antagonistische Aktivität von Mepyramin-, Pheniramin- und Cyclizin-Derivaten mit Cyanoguanidin-, Harnstoff- und Nitroethendiamin-Partialstrukturen.

Compounds with combined histamine H1- and H2-receptor antagonist activity were synthesized by connecting H1- and H2-receptor substructures via cyanoguanidine, urea, or nitroethenediamine moieties. Loss of the strongly basic side-chain nitrogen results in a decrease of H1-receptor activity compared to single reference compounds. At the guinea-pig right atrium (H2-receptor model) compounds with mepyramine or cyclizine structure are also less active than the single references tiotidine, ranitidine, or lamtidine. Nevertheless substances with a pheniramine like partial structure proved to be potent histamine H2-receptor antagonists at the atrium model (about 27 times more active than cimetidine).