RESUMO

Promastigotes and amastigotes of Leishmania mexicana mexicana transported 2-deoxy-D-glucose (2-DOG) by a saturable process with a Km of 24 +/- 3 microM and Vmax of 2.21 nmol min-1 (mg protein)-1 for the promastigote and a Km of 29 +/- 8 microM and Vmax of 0.13 nmol min-1 (mg protein)-1 for the amastigote stage. Amastigotes incorporated 2-DOG maximally at pH 5.0, while for promastigotes the optimum was at pH 7.0. Mid-log phase promastigotes were found to accumulate 2-DOG via a stereospecific carrier-mediated process which was competitively inhibited by D-glucose and D-mannose but not L-glucose. Transport was dependent upon temperature, with a Q10 in promastigotes of 1.83 and an optimum rate at 35 degrees C (+/- 4 degrees C) with an activation energy of 50.12 kJ mol-1. Stationary phase promastigotes accumulated 2-DOG at approximately twice the rate of mid-log phase promastigotes. Cytochalasin B, forskolin and phloretin were all found to inhibit human erythrocyte 2-DOG uptake but only cytochalasin B was found significantly to inhibit promastigote 2-DOG uptake. Interestingly, leishmanial 2-DOG uptake was inhibited by a series of membrane potential antagonists including the ionophore monensin, the H+ATPase inhibitor N, N'-dicyclohexylcarbodiimide (DCCD) and uncoupling agent carbonylcyanide-4-(triflouromethoxy) phenylhydrazone (FCCP), as well as, the tricyclic drugs chlomipramine and imipramine, but was insensitive to the Na+/K+ATPase inhibitor ouabain and the antitrypanosomal drugs Pentostam and Suramin. We therefore conclude that there are significant structural and mechanistic differences between the D-glucose uptake systems of Leishmania and the mammalian host to merit the inclusion of glucose transporters as putative targets for rational drug design.

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RESUMO

The macrophage cell-line J774.E1 and Leishmania m. mexicana infection was used to investigate the uptake of liposomes, which differed in their bulk phospholipid: ester- or ether-analogue of phosphatydilcholine (PC). The receptor-mediated uptake of both species of liposomes, containing native or acetylated LDL as ligands was also evaluated. Uninfected and infected J774.E1 cell-line accumulated more ester- and ether-liposomes alone than mixed type (50:50, ester/ether). The utilization was significantly enhanced when both types of liposomes contained native LDL. The highest uptake was recorded for liposomes bearing acetylated LDL by infected J774.E1 cells. Accumulation of ester- and ether-liposomes with the same ligand was not markedly affected by different chemical nature of PC. Finally, ether-liposomes alone possessed certain activity against Leishmania m. mexicana amastigotes. The results presented here demonstrated the usefulness of ether-liposomes with specific ligands in site-specific delivery of antileishmanial compounds in vitro.

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RESUMO

The azole antifungals ketoconazole and itraconazole possess in vitro antileishmanial activity against Leishmania mexicana mexicana amastigotes in macrophages (cell line J774G8). As in yeast and fungi, the activity is likely to be due to inhibition of the cytochrome P-450-dependent 14 alpha-demethylation of lanosterol and/or 24,25-dihydrolanosterol. Indeed, 50% inhibition of ergosterol synthesis was observed at 0.21 microM ketoconazole and 0.15 microM itraconazole. At 5 microM ketoconazole, traces of ergosterol could be found, whereas no ergosterol could be detected in cells treated with 5 microM itraconazole. The inhibition of ergosterol biosynthesis was concomitant with an accumulation of the 14 alpha-methylsterols lanosterol and 24,25-dihydrolanosterol. Fifty percent inhibition of cholesterol synthesis in uninfected macrophages was achieved at 0.95 microM and 1.5 microM itraconazole and ketoconazole, respectively. In infected macrophages all [14C]acetate was incorporated in ergosterol, suggesting an inhibition in cholesterol synthesis in the host cells. An inhibition of ergosterol synthesis coincided with increasing cholesterol synthesis. The latter synthesis was inhibited at concentrations greater than 1 microM. However, even at 5 microM cholesterol synthesis was higher than under control conditions.

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A comparison has been made of the effects of a range of antiprotozoal drugs and other metabolic inhibitors upon growing promastigotes and transforming amastigotes of Leishmania mexicana mexicana. Amastigotes transforming to promastigotes in vitro were highly susceptible to 2-mercaptoacetate, 4-pentenoate, alpha-difluoromethylornithine, ethidium bromide, acridine orange, pentamidine isethionate, allopurinol, amphotericin B, menoctone and pentostam. Promastigotes were in most cases less sensitive to these inhibitors. The results reiterate that the biochemical differences between the two developmental forms are reflected in their sensitivities to inhibitors. The transformation in vitro of Leishmania amastigotes to promastigotes may be a useful model for use as a primary screen for antileishmanial agents.

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RESUMO

Leishmania mexicana mexicana amastigotes have been shown to contain greater activities than promastigotes of the enzymes that catalyse the beta-oxidation of fatty acids, but lower activities of several glycolytic enzymes, with the activity of pyruvate kinase being especially low. The results suggest the beta-oxidation of fatty acids is relatively more important to Leishmania amastigotes than promastigotes, whereas the reverse is true for glycolysis. Succinic dehydrogenase and peptidase activities were much higher in promastigotes than amastigotes. The activities of glucose-6-phosphatase, fructose-1,6-bisphosphatase, acid phosphatase and glucose-6-phosphate dehydrogenase varied less, although in each case the activity was significantly lower in the mammalian stage. A method for lysing and fractionating L. m. mexicana promastigotes has been developed. Using this procedure it has been established that many of the glycolytic and functionally related enzymes are located in cell organelles, that hexokinase is intimately connected with the particulate part of the parasite, and that the microsomal fraction of L. m. mexicana is very different in composition from the microsomes of mammalian liver cells.

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Growth of Leishmania mexicana promastigotes is highly dependent upon O2 tension. There was a strong positive correlation between the level of O2, growth rate and maximum parasite density. Promastigotes under low oxygen tension decreased in size, protein content and motility, and deaths occurred. Changes in the carbon dioxide concentration (0.1-5.0%) had little effect on promastigote growth. Transformation in vivo of L. mexicana amastigotes to promastigotes also required oxygen, but a low level (0.4%) was sufficient for a high percentage of the amastigotes to transform. At high O2 concentrations, transformation was a little speedier but the number of parasites transforming was little affected. A greater effect was found with CO2. At 5%, transformation was much more rapid than at 0.1% and also an even greater percentage of amastigotes transformed within 48 h. The results give some indication that amastigotes are adpated for growth at low oxygen tensions encountered in vivo and that high carbon dioxide levels may act as a trigger for transformation of the amastigote to promastigote after it is taken up by the sandfly.

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RESUMO

Promastigotes of Leishmania mexicana mexicana recently derived from amastigotes by transformation in vitro respired at a rate (17 nmol O2/min per 10(8) parasites) 4-5 times higher than that of amastigotes, but when the difference in cell protein content between the two preparations was taken into account the rates were not significantly different (32 nmol O2/min per mg protein). The respiration of both amastigotes and promastigotes was sensitive to cyanide, azide, antimycin A, 2-n-heptyl-4-hydroxyquinoline-N-oxide and high concentrations of amytal, but insensitive to rotenone and salicyl-hydroxamic acid, indicating that the two developmental forms possess a similar cytochrome-containing respiratory chain. D-Glucose and non-esterified fatty acids stimulated promastigote respiration and amastigote transformation to promastigotes in vitro; possibly these substances are important exogenous energy substrates for both forms of the parasites. Amino acids (incuding L-proline) and proteins did not appear to be used as energy substrates. The respiration rate of promastigotes was found to rise significantly upon continued sub-culture in vitro; at the same time cell size and protein content increased.

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A rapid method for the bulk isolation of purified Leishmania mexicana mexicana amastigotes from parasite-induced lesions in experimentally infected mice is described. The procedure includes purification steps based on differences in net cell charge, lysis susceptibility and buoyant density between parasite and host cells. Yields of up to 2 x 10(10) untransformed amastigotes with minimal contamination with host cells and cell debris can be obtained. At least 90% of the purified amastigotes are viable as judged by light and electron microscopy, the staining of their lysosomes with acridine orange, their ability to transform to promastigotes and their infectivity to macrophages in vivo and in vitro.

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