Person: Foley, M
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Publication Diversity-Oriented Synthesis Yields a Novel Lead for the Treatment of Malaria
(AmericanChemical Society, 2011) Mulrooney, Carol; Austin, Christopher P.; Beaudoin, Jennifer A.; Cheng, Ken Chih-Chien; Comer, Eamon; Dandapani, Sivaraman; Dick, Justin; Duvall, Jeremy R.; Ekland, Eric H.; Fidock, David A.; Guha, Rajarshi; Hinkson, Paul; Kramer, Martin; Masi, Daniela; Marcaurelle, Lisa A.; Su, Xin-Zhuan; Weïwer, Michel; Xia, Menghang; Yuan, Jing; Zhao, Jinghua; Palmer, Michelle; Munoz, Benito; Heidebrecht, Richard; Barker, Robert; Fitzgerald, Mark E.; Foley, M; Lukens, Amanda; Thomas, Craig J.; Wiegand, Roger; Wirth, Dyann; Schreiber, StuartHere, we describe the discovery of a novel antimalarial agent using phenotypic screening of Plasmodium falciparum asexual blood-stage parasites. Screening a novel compound collection created using diversity-oriented synthesis (DOS) led to the initial hit. Structure–activity relationships guided the synthesis of compounds having improved potency and water solubility, yielding a subnanomolar inhibitor of parasite asexual blood-stage growth. Optimized compound 27 has an excellent off-target activity profile in erythrocyte lysis and HepG2 assays and is stable in human plasma. This compound is available via the molecular libraries probe production centers network (MLPCN) and is designated ML238.
Publication Advancing Biological Understanding and Therapeutics Discovery with Small-Molecule Probes
(Elsevier BV, 2015) Schreiber, Stuart; Kotz, Joanne D.; Li, Min; Aubé, Jeffrey; Austin, Christopher P.; Reed, John C.; Rosen, Hugh; White, E. Lucile; Sklar, Larry A.; Lindsley, Craig W.; Alexander, Benjamin R.; Bittker, Joshua A.; Clemons, Paul A.; de Souza, Andrea; Foley, M; Palmer, Michelle; Shamji, Alykhan; Wawer, Mathias J.; McManus, Owen; Wu, Meng; Zou, Beiyan; Yu, Haibo; Golden, Jennifer E.; Schoenen, Frank J.; Simeonov, Anton; Jadhav, Ajit; Jackson, Michael R.; Pinkerton, Anthony B.; Chung, Thomas D.Y.; Griffin, Patrick R.; Cravatt, Benjamin F.; Hodder, Peter S.; Roush, William R.; Roberts, Edward; Chung, Dong-Hoon; Jonsson, Colleen B.; Noah, James W.; Severson, William E.; Ananthan, Subramaniam; Edwards, Bruce; Oprea, Tudor I.; Conn, P. Jeffrey; Hopkins, Corey R.; Wood, Michael R.; Stauffer, Shaun R.; Emmitte, Kyle A.; Brady, Linda S.; Driscoll, Jamie; Li, Ingrid Y.; Loomis, Carson R.; Margolis, Ronald N.; Michelotti, Enrique; Perry, Mary E.; Pillai, Ajay; Yao, YongSmall-molecule probes can illuminate biological processes and aid in the assessment of emerging therapeutic targets by perturbing biological systems in a manner distinct from other experimental approaches. Despite the tremendous promise of chemical tools for investigating biology and disease, small-molecule probes were unavailable for most targets and pathways as recently as a decade ago. In 2005, the U.S. National Institutes of Health launched the decade-long Molecular Libraries Program with the intent of innovating in and broadening access to small-molecule science. This Perspective describes how novel small-molecule probes identified through the program are enabling the exploration of biological pathways and therapeutic hypotheses not otherwise testable. These experiences illustrate how small-molecule probes can help bridge the chasm between biological research and the development of medicines, but also highlight the need to innovate the science of therapeutic discovery.