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1. Mechanistic and biological characterisation of novel N 5 -substituted paullones targeting the biosynthesis of trypanothione in Leishmania .

Author

Medeiros A, Benítez D, Korn RS, Ferreira VC, Barrera E, Carrión F, Pritsch O, Pantano S, Kunick C, de Oliveira CI, Orban OCF, and Comini MA

Subjects

Animals, Glutathione biosynthesis, Spermidine biosynthesis, Benzazepines chemistry, Glutathione analogs & derivatives, Leishmania metabolism, Spermidine analogs & derivatives

Abstract

Trypanothione synthetase (TryS) produces N -bis(glutathionyl)spermidine (or trypanothione) at the expense of ATP. Trypanothione is a metabolite unique and essential for survival and drug-resistance of trypanosomatid parasites. In this study, we report the mechanistic and biological characterisation of optimised 1 ,N 8 -bis(glutathionyl)spermidine (or trypanothione) at the expense of ATP. Trypanothione is a metabolite unique and essential for survival and drug-resistance of trypanosomatid parasites. In this study, we report the mechanistic and biological characterisation of optimised N 5 -substituted paullone analogues with anti-TryS activity. Several of the new derivatives retained submicromolar IC 50 against leishmanial TryS. The binding mode to TryS of the most potent paullones has been revealed by means of kinetic, biophysical and molecular modelling approaches. A subset of analogues showed an improved potency (EC 50 0.5-10 µM) and selectivity (20-35) against the clinically relevant stage of Leishmania braziliensis (mucocutaneous leishmaniasis) and L. infantum (visceral leishmaniasis). For a selected derivative, the mode of action involved intracellular depletion of trypanothione. Our findings shed light on the molecular interaction of TryS with rationally designed inhibitors and disclose a new set of compounds with on-target activity against different Leishmania species.

Published

2020