SummaryIn Kinetoplastida, trypanothione and trypanothione reductase (TRYR) provide an intracellular reducing environment, substituting for the glutathione±glu-tathione reductase system found in most other organisms. To investigate the physiological role of TRYR in Trypanosoma brucei, we generated cells containing just one trypanothione reductase gene, TRYR, which was under the control of a tetracycline-inducible promoter. This enabled us to regulate TRYR activity in the cells from less than 1% to 400% of wild-type levels by adjusting the concentration of added tetracycline. In normal growth medium (which contains reducing agents), trypanosomes containing less than 10% of wild-type enzyme activity were unable to grow, although the levels of reduced trypanothione and total thiols remained constant. In media lacking reducing agents, hypersensitivity towards hydrogen peroxide (EC 50 3.5 mM) was observed compared with the wild type (EC 50 223 mM). The depletion of TRYR had no effect on susceptibility to melarsen oxide. The infectivity and virulence of the parasites in mice was dependent upon tetracycline-regulated TRYR activity: if the trypanosomes were injected into mice in the absence of tetracycline, no infection was detectable; and when tetracycline was withdrawn from previously infected animals, the parasitaemia was suppressed.
A knockout strain of Leishmania donovani lacking both ornithine decarboxylase (ODC) alleles has been created by targeted gene replacement. Growth of ⌬odc cells in polyamine-deficient medium resulted in a rapid and profound depletion of cellular putrescine pools, although levels of spermidine were relatively unaffected. Concentrations of trypanothione, a spermidine conjugate, were also reduced, whereas glutathione concentrations were augmented. The ⌬odc L. donovani exhibited an auxotrophy for polyamines that could be circumvented by the addition of the naturally occurring polyamines, putrescine or spermidine, to the culture medium. Whereas putrescine supplementation restored intracellular pools of both putrescine and spermidine, exogenous spermidine was not converted back to putrescine, indicating that spermidine alone is sufficient to meet the polyamine requirement, and that L. donovani does not express the enzymatic machinery for polyamine degradation. The lack of a polyamine catabolic pathway in intact parasites was confirmed radiometrically. In addition, the ⌬odc strain could grow in medium supplemented with either 1,3-diaminopropane or 1,5-diaminopentane (cadaverine), but polyamine auxotrophy could not be overcome by other aliphatic diamines or spermine. These data establish genetically that ODC is an essential gene in L. donovani, define the polyamine requirements of the parasite, and reveal the absence of a polyamine-degradative pathway.Polyamines are cationic compounds that play essential roles in cell proliferation, differentiation, and macromolecular synthesis (1-3). Ornithine decarboxylase (ODC) 1 catalyzes the conversion of ornithine to putrescine (1,4-diaminobutane) and is the initial and rate-limiting enzyme in polyamine biosynthesis in most organisms (4). The ODC enzyme of protozoan parasites is a novel therapeutic target, because D,L-␣-difluoromethylornithine (DFMO; eflornithine), an irreversible inhibitor of ODC (5), exhibits notable efficacy against the central nervous system phase of African sleeping sickness caused by Trypanosoma brucei gambiense (3, 6). DFMO is also active against T. b. rhodesiense and T. congolense in murine models and has proven effective against other genera of protozoan parasites in vivo and in vitro, including Plasmodia (7), Giardia (8), and Leishmania (9). DFMO has been shown to induce a lethal polyamine depletion in both T. brucei (10) and L. donovani (9), the etiologic agent of visceral leishmaniasis, and toxicity to both species is ameliorated by polyamine addition (3, 9).The ability of trypanosomatids to undergo a very high frequency of homologous recombination allows the disruption of chromosomal loci with transfected drug resistance cassettes (11,12) and permits a direct test of gene function. This enables the creation of conditionally lethal parasite strains whose survival and ability to propagate are dependent upon the provision of compounds that can ameliorate the consequences of the genetic lesion. This genetic approach is predicated on the availability of c...
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