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Thapa, P.,Kadayat, T.M.,Park, S.,Shin, S.,Thapa Magar, T.B.,Bist, G.,Shrestha, A.,Na, Y.,Kwon, Y.,Lee, E.S. Academic Press ; Academic Press 2016 Bioorganic chemistry Vol.66 No.-
<P>A new series of 2-phenol-4-chlorophenyl-6-aryl pyridines were designed, synthesized, and evaluated for topoisomerase (topo) I and II inhibitory activities as well as cytotoxic activity against four different human cancer cell lines such as HCT15, T47D, DU145, and Hela. Most of the tested compounds exhibited stronger topo II inhibitory activity at 100 mu M as compared to etoposide. All the compounds, except 39, did not show topo I inhibitory activity. Interestingly, compounds that showed better topo II inhibition than etoposide have ortho-or para-chlorophenyl at 4-position of central pyridine, and none of the compounds possess meta-chlorophenyl. SAR study revealed the importance of ortho-or para-chlorophenyl at 4-position of the central pyridine for selective topo II inhibitory activity. Similarly, all compounds possessing meta-or para-hydroxyphenyl moieties showed moderate to significant cytotoxic effects. Particularly, compounds 27-37, and 39 which showed excellent cytotoxicity (IC50 = 0.68-1.25 mu M) against T47D breast cancer cells suggest the importance of meta-or para-hydroxyphenyl moiety at 2-position of the central pyridine for the design of anticancer agents with related scaffolds. (C) 2016 Elsevier Inc. All rights reserved.</P>
( Pritam Thapa ),( Tara Man Kadayat ),( Seojeong Park ),( Somin Shin ),( Til Bahadur Thapa Magar ),( Ganesh Bist ),( Aarajana Shrestha ),( Younghwa Na ),( Youngjoo Kwon ),( Eung Seok Lee ) 영남대학교 약품개발연구소 2016 영남대학교 약품개발연구소 연구업적집 Vol.26 No.-
A new series of 2-phenol-4-chlorophenyl-6-aryl pyridines were designed, synthesized, and evaluated for topoisomerase (topo) I and II inhibitory activities as well as cytotoxic activity against four different human cancer cell lines such as HCT15, T47D, DU145, and Hela. Most of the tested compounds exhibited stronger topo II inhibitory activity at 100 μM as compared to etoposide. All the compounds, except 39, did not show topo I inhibitory activity. Interestingly, compounds that showed better topo II inhibition than etoposide have ortho- or para-chlorophenyl at 4-position of central pyridine, and none of the com-pounds possess meta-chlorophenyl. SAR study revealed the importance of ortha- or para-chlorophenyl at 4-position of the central pyridine for selective tapa II inhibitory activity. Similarly, all compounds possessing mere- or para-hydroxyphenyl moieties shawed moderate to significant cytotoxic effects. Particularly, compounds 27-37, and 39 which showed excellent cytotoxicity (IC<sub>50</sub> = 0.68-1.25 μM) against T47D breast cancer cells suggest the importance of meta- or para-hydroxyphenyl moiety at 2-position of the central pyridine for the design of anticancer agents with related scaffolds.