Abstract
A number of novel heterocyclic chalcone derivatives can be synthesized by thermal and microwave tools. Treatment of 4-(4-Acetylamino- and/or 4-bromo-phenyl)-4-oxobut-2-enoic acids with hydrogen peroxide in alkaline medium were afforded oxirane derivatives 2. Reaction of the epoxide 2 with 2-amino-5-aryl-1,3,4-thiadiazole derivatives yielded chalcone of imidazo[2,1-b]thiadiazole derivative 4 via two thermal routes. In one pot reaction of 4-bromoacetophenone, diethyloxalate, and 2-amino-5-aryl-1,3,4-thiadiazole derivatives in MW irradiation (W 250 and T 150 °C) under eco-friendly conditions afforded an unsuitable yield of the desired chalcone 4d. The chalcone derivatives 4 were used as a key starting material to synthesize some new spiroheterocyclic compounds via Michael and aza-Michael adducts. The chalcone 4f was similar to the aryl-oxo-vinylamide derivatives for the inhibition of tyrosine kinase and cancer cell growth. The electron-withdrawing substituents, such as halogens, and 2-amino-1,3,4-thiadiazole moeity decreasing the electron density, thereby decreasing the energy of HOMO, and the presence of imidazothiadiazole moiety should improve the antibacterial activity. Thus, the newly synthesized compounds were evaluated for their anti-bacterial activity against (ATCC 25923), (ATCC 10987), (ATCC 274,) and (SM514). The structure of the newly synthesized compounds was confirmed by elemental analysis and spectroscopic data.
Highlights
The anti-proliferative activity of (E)-4-aryl-4-oxo-2-butenoic acid amides was shown against three human tumor cell lines [1], in addition to a multitude of biological activities [2]
Spiroindoline [7] and imidazoline derivatives [8] can be evaluated for their binding affinities and antagonistic activities at the neuropeptide YY5 receptor, as well as their good brain penetration
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Summary
The anti-proliferative activity of (E)-4-aryl-4-oxo-2-butenoic acid amides was shown against three human tumor cell lines [1], in addition to a multitude of biological activities [2]. Chalcone derivatives are one of the major classes of natural products with widespread distribution in fruits, vegetables, spices, tea and soy based foodstuff. They have been a subject of great interest for their interesting pharmacological activities [3]. Most of the chalcones are highly biologically active with a number of pharmacological and medicinal applications [6]. Ismynidthaezsoi-zoexdazvoiale tdreeartimvaetnivteos f[1im6]idcaaznoblee dseyrnitvhaetsivizeesdwviitah torexairtamneen, taonfd imthiedyazhoalveedbeerievnattievsetsedwfiothr oanxitri-amney,caonbdactthereiyalhaacvteivbiteye.nTtheest(eEd)-f4o-ar raynl-t4i--moxyoc-o2b-bacutteerniaolicacatciivditsy.arTehceon(Ev)e-n4i-eanryt lp-4o-loyxoe-le2c-btruotpehnioliicc arecaidgsenartse fcoorntvheenaiedndtitpioonlyreelaeccttiroonpohfilnicurcelaegoepnhtislefso;ret.hge., acadrdbiotino,nnrietraocgtieonn, oafnnduscullefouprhoiclecsu;ree.gx.c,lcuasribvoelny, natitrtohgeeαn,-caarnbdonseullefcutrropochciluicr ceexnctleursiovfeltyheactartbhoexyα-pcraercbuornsoresleuctsreodphfoilricthceenstyenrthoefsisthoef rcealrebvoaxnyt phreetecruorcsyocrslicucsoedmpfoorunthdes s[y17n–th22es].isTohfe raeulethvoarnst hhaevteerorecpyoclritcedco[m19p,2o3u]ntdhsat[1th7–e2b2e].haTvhioer aouf t4h-o(4rs-ahceatvyel raempionrote/bdro[1m9,o23p]htehnaytl)t-h4e-obxeoh-bauvito-2r-eonf o4i-c(4a-caicdesty(1l )atmowinaor/dbtrhoemhoypdhroegneynl)-p4e-oroxxoi-dbeuti-n2-tehneopicreasceindcse(o1)f t8o%wasorddiuthme hhyyddrroogxiedne/pmeerothxaidneolinafftohredepdretsheenceepooxf id8%e psrooddiuucmts hoyf d(Ero)-x1id-(e4/-amceettyhlaanmoilnaofbfoenrdzeodyl)t-h2eeopxoirxaindee cparrobdoxuyctlisc oafcid(Es)-(12-)(.4A-amceotnyglamthienmob, eimnziodyalz)o-2[2-o,1x-ibr]a1n,3e,4c-athrbiaodxiyalzicoleaciisdasn(2a)t.traActmivoenagrytlhuenmit, itmhaitdcaazuos[2es,1a-bd]1e,c3r,e4a-tsheiaindeialezcotlreonisdaennsaitttyra(lcotiwveHaOryMl Ou)noitf tthhaetsycanuthseessizaeddecchraealcsoeniens,ewlehcitcrhonindcreenassietys (itlos wanHtibOaMctOer)iaolfatchteivsiytynt[h2e4s].ized chalcones, which increases its antibacterial activity [24]
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