Structure-Based Selectivity Optimization of Piperidine–Pteridine Derivatives as Potent Leishmania Pteridine Reductase Inhibitors

Authors :: Andrea Cavalli
Véronique Hannaert
Shreedhara Gupta
Federica Gibellini
Paola Corona
Paul A.M. Michels
Antonio Carta
Stefania Ferrari
Puneet Saxena
Paola M. Costi
Erika Nerini
Giuseppe Paglietti
Davide Guerrieri
Mario Loriga
Rosaria Luciani
Corona P.
Gibellini F.
Cavalli A.
Saxena P.
Carta A.
Loriga M.
Luciani R.
Paglietti G.
Guerrieri D.
Nerini E.
Gupta S.
Hannaert V.
Michels P.A.
Ferrari S.
Costi P.M.
Publication Year :: 2012
Abstract: The upregulation of pteridine reductase (PTR1) is a major contributor to antifolate drug resistance in Leishmania spp., as it provides a salvage pathway that bypasses dihydrofolate reductase (DHFR) inhibition. The structure-based optimization of the PTR1 inhibitor methyl-1-[4-(2,4-diaminopteridin-6-ylmethylamino)benzoyl]piperidine-4-carboxylate (1) led to the synthesis of a focused compound library which showed significantly improved selectivity for the parasite's folate-dependent enzyme. When used in combination with pyrimethamine, a DHFR inhibitor, a synergistic effect was observed for compound 5b. This work represents a step forward in the identification of effective antileishmania agents.

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