Abstract
Novel 1-(1,4-alkylaryldisubstituted-4,5-dihydro-1H-imidazo)-3-substituted urea derivatives have been synthesized and evaluated for their central nervous system activity. Compounds 3a–m were prepared in the reaction between the respective 1-alkyl-4-aryl-4,5-dihydro-1H-imidazol-2-amines 1a–c and appropriate isocyanates 2 in dichloromethane. The compounds were subjected to in silico ADMET studies in order to select best candidates for in vivo experiments. The effects of the compounds on the spontaneous locomotor activity and amphetamine-evoked hyperactivity were estimated. Analgesic activity, without or in the presence of naloxone, was assessed in the writhing test. The tendency to change the HTR, evoked by l-5-HTP and the involvement in alteration in body temperature in mice was studied. Additionally, to check possible occurrence of drug-induced changes in the muscle relaxant activity of mice, which may have contributed to their behaviour in other tests, the rota-rod and chimney tests were performed. The new urea derivatives exerted significant activities in the performed pharmacological tests, although the presented results show a preliminary estimation, and thus, need to be extended for identification and understanding the complete pharmacological profile of the examined compounds.
Highlights
Pain is a global health challenge with social and economic implications
Reactions were routinely monitored by thin-layer chromatography (TLC) in silica gel (60 F254 plates Merck, Darmstadt, Germany) and the products were visualized with ultraviolet light of 254 nm wavelength
Melting points were determined with a Boetius apparatus (Jena, Germany)
Summary
Pain is a global health challenge with social and economic implications. The main pain management strategies are administration of opioids and nonsteroidal anti-inflammatory drugs (NSAIDs). Opioid receptors are among the most important molecular targets for antinociceptive medications. Opioid analgesics represent the front-line treatment for the clinical management of moderate to severe pain, and for centuries opium and its extracts have been used for therapeutic purposes [1]. Morphine isolated from opium is one of the most widely used analgesics today. Many morphine-like opioid analgesics have similar structural features, i.e., the phenyl ring, tertiary nitrogen atom and the two carbon fragment (e.g.) as a part of the piperidine ring), required for the receptor
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