Jennifer C. Freeman
Research Triangle Park
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Jennifer C. Freeman.
PLOS Neglected Tropical Diseases | 2011
Luke Mercer; Tana Bowling; Joe B Perales; Jennifer C. Freeman; Tien Nguyen; Cyrus J. Bacchi; Nigel Yarlett; Robert Don; Robert T. Jacobs; Bakela Nare
Background There is an urgent need to develop new, safe and effective treatments for human African trypanosomiasis (HAT) because current drugs have extremely poor safety profiles and are difficult to administer. Here we report the discovery of 2,4-diaminopyrimidines, exemplified by 4-[4-amino-5-(2-methoxy-benzoyl)-pyrimidin-2-ylamino]-piperidine-1-carboxylic acid phenylamide (SCYX-5070), as potent inhibitors of Trypanosoma brucei and the related trypanosomatid protozoans Leishmania spp. Methodology/Principal Findings In this work we show that loss of T. brucei viability following SCYX-5070 exposure was dependent on compound concentration and incubation time. Pulse incubation of T. brucei with SCYX-5070 demonstrates that a short period of exposure (10–12 hrs) is required to produce irreversible effects on survival or commit the parasites to death. SCYX-5070 cured an acute trypanosomiasis infection in mice without exhibiting signs of compound related acute or chronic toxicity. To identify the molecular target(s) responsible for the mechanism of action of 2,4-diaminopyrimidines against trypanosomatid protozoa, a representative analogue was immobilized on a solid matrix (sepharose) and used to isolate target proteins from parasite extracts. Mitogen-activated protein kinases (MAPKs) and cdc2-related kinases (CRKs) were identified as the major proteins specifically bound to the immobilized compound, suggesting their participation in the pharmacological effects of 2,4-diaminopyrimidines against trypanosomatid protozoan parasites. Conclusions/Significance Results show that 2,4-diaminopyrimidines have a good in vitro and in vivo pharmacological profile against trypanosomatid protozoans and that MAPKs and CRKs are potential molecular targets of these compounds. The 2,4-diminipyrimidines may serve as suitable leads for the development of novel treatments for HAT.
Bioorganic & Medicinal Chemistry Letters | 2011
Joe B Perales; Jennifer C. Freeman; Cyrus J. Bacchi; Tana Bowling; Robert Don; Eric Gaukel; Luke Mercer; Joseph A. Moore; Bakela Nare; Tien M. Nguyen; Robert A. Noe; Ryan Randolph; Cindy Rewerts; Stephen A. Wring; Nigel Yarlett; Robert T. Jacobs
A series of 2,4-diaminopyrimidines was investigated and compounds were found to have in vivo efficacy against Trypanosoma brucei in an acute mouse model. However, in vitro permeability data suggested the 2,4-diaminopyrimidenes would have poor permeability through the blood brain barrier. Consequently a series of 4-desamino analogs were synthesized and found to have improved in vitro permeability.
Archive | 2007
Rajesh R. Iyengar; Gang Zhao; Jennifer C. Freeman; Ju Gao; Andrew S. Judd; Philip R. Kym; John K. Lynch; Mathew M. Mulhern; Andrew J. Souers
Bioorganic & Medicinal Chemistry Letters | 2005
Anil Vasudevan; Andrew J. Souers; Jennifer C. Freeman; Mary K. Verzal; Ju Gao; Mathew M. Mulhern; Derek Wodka; John K. Lynch; Kenneth M. Engstrom; Seble H. Wagaw; Sevan Brodjian; Brian D. Dayton; Doug H. Falls; Eugene N. Bush; Michael E. Brune; Robin Shapiro; Kennan C. Marsh; Lisa E. Hernandez; Christine A. Collins; Philip R. Kym
Journal of Medicinal Chemistry | 2006
John K. Lynch; Jennifer C. Freeman; Andrew S. Judd; Rajesh R. Iyengar; Mathew M. Mulhern; Gang Zhao; James J. Napier; Dariusz Wodka; Sevan Brodjian; Brian D. Dayton; Doug H. Falls; Ogiela C; Regina M. Reilly; Thomas J. Campbell; James S. Polakowski; Lisa E. Hernandez; Kennan C. Marsh; Robin Shapiro; Knourek-Segel; Brian A. Droz; Eugene N. Bush; Michael E. Brune; Lee C. Preusser; Ryan M. Fryer; Glenn A. Reinhart; Houseman K; Gilbert Diaz; Mikhail A; Limberis Jt; Hing L. Sham
Journal of Medicinal Chemistry | 2006
Philip R. Kym; Andrew J. Souers; Thomas J. Campbell; John K. Lynch; Andrew S. Judd; Rajcsh Iyengar; Anil Vasudevan; Ju Gao; Jennifer C. Freeman; Dariusz Wodka; Mathew M. Mulhern; Gang Zhao; Seble H. Wagaw; James J. Napier; Sevan Brodjian; Brian D. Dayton; Regina M. Reilly; Jason A. Segreti; Ryan M. Fryer; Lee C. Preusser; Glenn A. Reinhart; Lisa E. Hernandez; Kennan C. Marsh; Hing L. Sham; Christine A. Collins; James S. Polakowski
Bioorganic & Medicinal Chemistry Letters | 2007
Rajesh R. Iyengar; John K. Lynch; Mathew M. Mulhern; Andrew S. Judd; Jennifer C. Freeman; Ju Gao; Andrew J. Souers; Gang Zhao; Dariusz Wodka; H. Doug Falls; Sevan Brodjian; Brian D. Dayton; Regina M. Reilly; Sue Swanson; Zhi Su; Ruth L. Martin; Sandra Leitza; Kathryn Houseman; Gilbert Diaz; Christine A. Collins; Hing L. Sham; Philip R. Kym
Bioorganic & Medicinal Chemistry Letters | 2007
Andrew S. Judd; Andrew J. Souers; Dariusz Wodka; Gang Zhao; Mathew M. Mulhern; Rajesh R. Iyengar; Ju Gao; John K. Lynch; Jennifer C. Freeman; H. Douglas Falls; Sevan Brodjian; Brian D. Dayton; Regina M. Reilly; Gary A. Gintant; James T. Limberis; Ann Mikhail; Sandra Leitza; Kathryn Houseman; Gilbert Diaz; Eugene N. Bush; Robin Shapiro; Victoria Knourek-Segel; Lisa E. Hernandez; Kennan C. Marsh; Hing L. Sham; Christine A. Collins; Philip R. Kym
Bioorganic & Medicinal Chemistry Letters | 2007
Andrew J. Souers; Rajesh R. Iyengar; Andrew S. Judd; David W. A. Beno; Ju Gao; Gang Zhao; Michael E. Brune; James J. Napier; Mathew M. Mulhern; John K. Lynch; Jennifer C. Freeman; Dariusz Wodka; Chong J. Chen; H. Doug Falls; Sevan Brodjian; Brian D. Dayton; Gilbert Diaz; Eugene N. Bush; Robin Shapiro; Brian A. Droz; Victoria Knourek-Segel; Lisa E. Hernandez; Kennan C. Marsh; Regina M. Reilly; Hing L. Sham; Christine A. Collins; Philip R. Kym
Archive | 2007
Jennifer C. Freeman; Ju Gao; Rajesh R. Iyengar; Andrew S. Judd; Philip R. Kym; John K. Lynch; Mathew M. Mulhern; Andrew J. Souers; Gang Zhao
