posted on 2016-08-09, 00:00authored byDavid M. Floyd, Philip Stein, Zheng Wang, Jian Liu, Steve Castro, Julie A. Clark, Michele Connelly, Fangyi Zhu, Gloria Holbrook, Amy Matheny, Martina S. Sigal, Jaeki Min, Rajkumar Dhinakaran, Senthil Krishnan, Sridevi Bashyum, Spencer Knapp, R. Kiplin Guy
Phenotypic
whole-cell screening in erythrocytic cocultures of Plasmodium
falciparum identified a series of dihydroisoquinolones that
possessed potent antimalarial activity against multiple resistant
strains of P. falciparum in vitro and show no cytotoxicity
to mammalian cells. Systematic structure–activity studies revealed
relationships between potency and modifications at N-2, C-3, and C-4.
Careful structure–property relationship studies, coupled with
studies of metabolism, addressed the poor aqueous solubility and metabolic
vulnerability, as well as potential toxicological effects, inherent
in the more potent primary screening hits such as 10b. Analogues 13h and 13i, with structural
modifications at each site, were shown to possess excellent antimalarial
activity in vivo. The (+)-(3S,4S) enantiomer of 13i and similar analogues
were identified as the more potent. On the basis of these studies,
we have selected (+)-13i for further study as a preclinical
candidate.