An attempt to prepare sulfonyl analogues of fotemustine: unexpected rearrangement to sulfamate during nitrosation step.

This paper describes a flexible strategy to access diethyl ((((N-(2-chloroethyl)-N-nitrososulfamoyl)amino)arylmethyl) phosphonates, as aryl analogues of fotemustine. The new aryl sulfamidophosphonates prepared from 2-chloroethylamine were successfully obtained under eco-environmental conditions using ultrasound irradiation. These compounds did not produce the expected nitroso analogues of fotemustine after the nitrosation reaction but the corresponding sulfamates which were fully characterized. Some attempts to understand this rearrangement reaction were conducted, and particularly the corresponding nitrosoureas analogues could be isolated with good yield. The novel sulfonamidophosphonates as well as their sulfamate derivatives were evaluated for their cytotoxic effect on a panel of tumor cells.

BiCl3-catalyzed green synthesis of 4-hydroxy-2-quinolone analogues under microwave irradiation.

Traditional chemical synthesis, which involves the use of dangerous protocols, hazardous solvents, and toxic products and catalysts, is considered environmentally inappropriate and harmful to human health. Bearing in mind its numerous drawbacks, it has become crucial to substitute conventional chemistry with green chemistry which is safer, more ecofriendly and more effective in terms of time and selectivity. Elaborating synthetic protocols producing interesting new compounds using both microwave heating and heterogeneous non-toxic catalysts is acknowledged as a green approach that avoids many classical chemistry-related problems. In the current study, ß-enaminones were used as precursors to the synthesis of modified 4-hydroxy-2-quinolone analogues. The synthesis was monitored in a benign way under microwave irradiation and was catalyzed by bismuth chloride III in an amount of 20 mol%. This method is privileged by using a non-corrosive, non-toxic, low-cost and available bismuth Lewis acid catalyst that has made it more respectful to the demands of green chemistry. The synthesized compounds were obtained in moderate to good yields (51-71%) and were characterized by 1H, 13C NMR, and IR spectroscopy as well as elemental analysis. Compound 5i was subjected to a complete structural elucidation using the X-ray diffraction method, and the results show the obtention of the enolic tautomeric form.