Abstract
A series of new pyrrole derivatives were designed as chemical analogs of the 1,4-dihydropyridines drugs in order to develop future new calcium channel blockers. The new tri- and tetra-substituted N-arylpyrroles were synthesized by the one-pot reaction of 1-methyl-3-cyanomethyl benzimidazolium bromide with substituted alkynes having at least one electron-withdrawing substituent, in 1,2-epoxybutane, acting both as the solvent and reagent to generate the corresponding benzimidazolium N3-ylide. The structural characterization of the new substituted pyrroles was based on IR, NMR spectroscopy as well as on single crystal X-ray analysis. The toxicity of the new compounds was assessed on the plant cell using Triticum aestivum L. species and on the animal cell using Artemia franciscana Kellogg and Daphnia magna Straus crustaceans. The compounds showed minimal phytotoxicity on Triticum rootlets and virtually no acute toxicity on Artemia nauplii, while on Daphnia magna, it induced moderate to high toxicity, similar to nifedipine. Our research indicates that the newly synthetized pyrrole derivatives are promising molecules with biological activity and low acute toxicity.
Highlights
Pyrrole is a five membered heteroaromatic compound with one nitrogen atom in the ring
We present the synthesis of new highly substituted pyrroles in a two stage process involving the formation of 1-methyl-3-(cyanomethyl) benzimidazolium bromide and its subsequent reaction with acetylenic dipolarophiles in 1,2-epoxybutane in the second step
A new efficient method for the synthesis of highly substituted pyrroles was achieved starting from 1-methyl-3-cyanomethyl-benzimidazolium bromide and acetylenic dipolarophiles
Summary
Pyrrole is a five membered heteroaromatic compound with one nitrogen atom in the ring. The pyrrole core is usually encountered among natural compounds, the bestknown being the heme, chlorophyll, vitamin B12, and marine alkaloids (e.g., lamellarins, storniamides) [1,2,3,4,5,6]. A great number of natural or synthetic pyrrole derivatives have been found to exhibit a variety of biological activities such as antimicrobial, antiinflammatory, anticancer, antiviral, antihypertensive, etc. From the marine alkaloid group with the tri- and tetrasubstituted pyrrole ring, lamellarins O, Q, R for their anticancer activity [5] and storniamids A–D for antibacterial activity [3] stand out (Figure 2)
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