Bis-acridines as lead antiparasitic agents: structure-activity analysis of a discrete compound library in vitro.

Parasitic diseases are of enormous public health significance in developing countries-a situation compounded by the toxicity of and resistance to many current chemotherapeutics. We investigated a focused library of 18 structurally diverse bis-acridine compounds for in vitro bioactivity against seven protozoan and one helminth parasite species and compared the bioactivities and the cytotoxicities of these compounds toward various mammalian cell lines. Structure-activity relationships demonstrated the influence of both the bis-acridine linker structure and the terminal acridine heterocycle on potency and cytotoxicity.

Time-dependent inhibitors of trypanothione reductase: analogues of the spermidine alkaloid lunarine and related natural products.

The macrocyclic spermidine alkaloid lunarine 1 from Lunaria biennis is a competitive, time-dependent inhibitor of the protozoan oxidoreductase trypanothione reductase (TryR), a promising target in drug design against tropical parasitic diseases. Various molecules related to 1 and the alkaloid itself have been synthesized in racemic form and evaluated against TryR in order to determine the key features of 1 that are associated with time-dependent inhibition. Kinetic data are consistent with an inactivation mechanism involving a conjugate addition of an active site cysteine residue onto the C-24-C-25 double bond of the tricyclic nucleus of 1.

Two interacting binding sites for quinacrine derivatives in the active site of trypanothione reductase: a template for drug design.

Trypanothione reductase is a key enzyme in the trypanothione-based redox metabolism of pathogenic trypanosomes. Because this system is absent in humans, being replaced with glutathione and glutathione reductase, it offers a target for selective inhibition. The rational design of potent inhibitors requires accurate structures of enzyme-inhibitor complexes, but this is lacking for trypanothione reductase.

Benzofuranyl 3,5-bis-polyamine derivatives as time-dependent inhibitors of trypanothione reductase.

The synthesis and evaluation of 3,5-disubstituted benzofuran derivatives as time-dependent inhibitors of the protozoan oxidoreductase trypanothione reductase are reported. These molecules were designed as simplified mimetics of the naturally occurring spermidine-bridged macrocyclic alkaloid lunarine 1, a known time-dependent inhibitor of trypanothione reductase. In this series of compounds the bis-polyaminoacrylamide derivatives 2-4 were all shown to be competitive inhibitors, but only the bis-4-methyl-piperazin-1-yl-propylacrylamide derivative 4 displayed time-dependent activity.

Ellman's-reagent-mediated regeneration of trypanothione in situ: substrate-economical microplate and time-dependent inhibition assays for trypanothione reductase.

Trypanothione reductase (TryR) is a key enzyme involved in the oxidative stress management of the Trypanosoma and Leishmania parasites, which helps to maintain an intracellular reducing environment by reduction of the small-molecular-mass disulphide trypanothione (T[S](2)) to its di-thiol derivative dihydrotrypanothione (T[SH](2)). TryR inhibition studies are currently impaired by the prohibitive costs of the native enzyme substrate T[S](2). Such costs are particularly notable in time-dependent and high-throughput inhibition assays.