126533-76-4Relevant articles and documents
Solvent-free synthesis of bacillamide analogues as novel cytotoxic and anti-inflammatory agents
Kumar, Sunil,Aggarwal, Ranjana,Kumar, Virender,Sadana, Rachna,Patel, Bhumi,Kaushik, Pawan,Kaushik, Dhirender
, p. 718 - 726 (2016)
Synthesis of fourteen analogues of bacillamide, a bioactive tryptamide alkaloid of marine origin, has been accomplished through a highly efficient convergent route. The present solvent-free protocol involves the formation of thiazole ring in the initial step followed by amide coupling between substituted ethyl 2-alkyl/aryl/heteroaryl/amino/aminoarylthiazole-4-carboxylates and tryptamine in presence of 2-hydroxy-4,6-dimethylpyrimidine, a solid phase catalyst to yield N-[2-(1H-indol-3-yl)ethyl]-2-alkyl/aryl/heteroaryl/amino/aminoarylthiazole-4-carboxamides as bacillamide analogues having structural variation at position-2 of thiazole ring. Bacillamide and its analogues were evaluated for their cytotoxic activity against three cancer cell lines (HCT-116, MDA-MD-231 and JURKAT cell lines) using colorimetric cell proliferation assay. Compounds 17a and 17b exhibited potent anti-cell proliferation activity with IC50values in the range of ~3.0?μM and ~0.1–0.6?μM, respectively against these cell lines. Preliminary mechanism of action studies indicates that these compounds initiate caspase dependent apoptosis. Also, compounds 16d, 16f, 17a and 17d exhibited excellent anti-inflammatory activity comparable to well-known NSAID indomethacin and better to bacillamide, when evaluated using carrageenan induced rat hind paw oedema method.
Design, synthesis, and SAR studies of 4-substituted methoxylbenzoyl-aryl- thiazoles analogues as potent and orally bioavailable anticancer agents
Lu, Yan,Li, Chien-Ming,Wang, Zhao,Chen, Jianjun,Mohler, Michael L.,Li, Wei,Dalton, James T.,Miller, Duane D.
supporting information; experimental part, p. 4678 - 4693 (2011/09/14)
In a continued effort to improve upon the previously published 4-substituted methoxybenzoyl-aryl-thiazole (SMART) template, we explored chemodiverse "B" rings and "B" to "C" ring linkage. Further, to overcome the poor aqueous solubility of this series of agents, we introduced polar and ionizable hydrophilic groups to obtain water-soluble compounds. For instance, based on in vivo pharmacokinetic (PK) studies, an orally bioavailable phenyl-amino-thiazole (PAT) template was designed and synthesized in which an amino linkage was inserted between "A" and "B" rings of compound 1. The PAT template maintained nanomolar (nM) range potency against cancer cell lines via inhibiting tubulin polymerization and was not susceptible to P-glycoprotein mediated multidrug resistance in vitro, and markedly improved solubility and bioavailability compared with the SMART template (45a-c (PAT) vs 1 (SMART)).
Discovery of 2-aminothiazole-4-carboxamides, a novel class of muscarinic M3 selective antagonists, through solution-phase parallel synthesis
Sagara, Yufu,Mitsuya, Morihiro,Uchiyama, Minaho,Ogino, Yoshio,Kjmura, Toshifumi,Ohtake, Norikazu,Mase, Toshiaki
, p. 437 - 440 (2007/10/03)
Synthesis and structure-activity relationship of a new class of muscarinic M3 selective antagonists were described. In the course of searching for a muscarinic M3 antagonist with a structure distinct from those of the 2-(4,4-difluorocyclopentyl)-2-phenylacetamide derivatives, we identified a thiazole-4-carboxamide derivative (1) as a lead compound in our in-house chemical collection. Since this compound (1) showed relatively low binding affinity (K1 = 140 nM) for M3 receptors in the human binding assays, we tried to improve its potency and selectivity for M 3 over M1 and M2 receptors by derivatization of 1 through a combinatorial approach. A solution-phase parallel synthesis effectively contributed to the optimization of each segment of 1. Thus, we have identified a cyclooctenylmethyl derivative (3e) and a cyclononenylmethyl derivative (3f) as representative M3 selective antagonists in this class.