Meta-substituted aryl(thio)ethers as potent partial agonists (or antagonists) for the histamine H3 receptor lacking a nitrogen atom in the side chain.

4-(3-Aryloxypropyl)-1H-imidazoles, which possess a meta-positioned substituent in the aryl ring, have been synthesized and tested for activity at histamine H(3) receptors. The compounds having a CN, Me, or Br substituent were found to be antagonists, whereas CF(3), Et, i-Pr, t-Bu, COCH(3), or NO(2) substituents remarkably afforded partial agonists when tested in vitro on rat cerebral cortex synaptosomes for inhibition of [(3)H]histamine release. The compounds were also active in vivo, and furthermore, the CF(3)-substituted compound trifluproxim (UCL 1470, 7) acted as a potent full agonist in vivo, having ED(50) = 0.

Synthesis of potent non-imidazole histamine H3-receptor antagonists.

Histamine has been converted into a non-imidazole H3-receptor histamine antagonist by addition of a 4-phenylbutyl group at the N alpha-position followed by removal of the imidazole ring. The resulting compound, N-ethyl-N-(4-phenylbutyl)amine, remarkably has a Ki = 1.3 microM as an H3 antagonist.

Total vitamin C, ascorbic acid, and dehydroascorbic acid concentrations in plasma of critically ill patients.

Plasma concentrations of the antioxidant vitamin ascorbic acid were measured by high-performance liquid chromatography in critically ill patients in whom the excessive generation of reactive oxygen species could compromise antioxidant defense mechanisms. Median concentrations of both total vitamin C (ascorbic acid and dehydroascorbic acid) and ascorbic acid in these patients were < 25% (P < 0.001) of the values found in healthy control subjects and in subjects in two other disease groups (diabetes, gastritis) in which reactive oxygen species are reported to be increased.

Structure-activity studies with histamine H3-receptor ligands.

Starting from thioperamide, the first potent and selective H3-receptor histamine antagonist, analogues have been synthesised and tested in vitro on rat cerebral cortex to explore structure-activity relationships. The aim has been to design compounds which do not possess the thiourea group of thioperamide and which may have improved brain penetration. Some compounds derived from histamine and possessing an aromatic nitrogen-containing heterocycle on the side-chain amino group show strong H3-antagonist activity.