The protozoan parasites, Trypanosoma brucei and T. cruzi, that cause sleeping sickness in sub-Saharan Africa and Chagas' Disease in Latin America, respectively, exert significant morbidity and mortality in man. Combinations of toxicity and differential efficacy of current drugs provide an urgent need to develop novel, cheap and effective chemotherapies. Research over the last decade with cultured trypanosomes and mice experimentally infected with these parasites has demonstrated that trypanosome cysteine proteinases are valid targets for the rational design of new drugs. In particular, potent peptidyl and peptidomimetic inhibitors of brucipain (a.k.a. trypanopain-Tb) and cruzain (a.k.a. cruzipain), the respective cysteine proteinases of T. brucei and T. cruzi, have proved trypanocidal. Efforts are ongoing to develop more specific non-toxic inhibitors of various chemistries with improved biological half-lives and biovailability characteristics. Here, the biochemical and biological properties together with the history, current status and perceived directions on the development of specific inhibitors of trypanosome cysteine proteinases will be reviewed.
BackgroundCurrent chemotherapy of human African trypanosomiasis or sleeping sickness relies on drugs developed decades ago, some of which show toxic side effects. One promising line of research towards the development of novel anti-trypanosomal drugs are small-molecule inhibitors of Trypanosoma brucei cysteine proteinases.ResultsIn this study, we demonstrate that treatment of T. brucei-infected mice with the inhibitor, carbobenzoxy-phenylalanyl-alanine-diazomethyl ketone (Z-Phe-Ala-CHN2), alters parasite morphology and inhibits cell division. Following daily intra-peritoneal administration of 250 mg kg-1 of Z-Phe-Ala-CHN2 on days three and four post infection (p.i.), stumpy-like forms with enlarged lysosomes were evident by day five p.i. In addition, trypanosomes exposed to the inhibitor had a 65% greater protein content than those from control mice. Also, in contrast to the normal 16% of parasites containing two kinetoplasts – a hallmark of active mitosis, only 4% of trypanosomes exposed to the inhibitor were actively dividing, indicating cell cycle-arrest.ConclusionWe suggest that inhibition of endogenous cysteine proteinases by Z-Phe-Ala-CHN2 depletes the parasite of essential nutrients necessary for DNA synthesis, which in turn, prevents progression of the cell cycle. This arrest then triggers differentiation of the long-slender into short-stumpy forms.
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