SummaryPrevious studies suggested Plasmodium sporozoites infect hepatocytes after passing through Kupffer cells, but proof has been elusive. Here we present new information strengthening that hypothesis. We used homozygous op/op mice known to have few Kupffer cells because they lack macrophage colony stimulating factor 1 required for macrophage maturation due to a deactivating point mutation in the osteopetrosis gene. We found these mice to have 77% fewer Kupffer cells and to exhibit reduced clearance of colloidal carbon particles compared with heterozygous phenotypically normal littermates. Using a novel quantitative reverse transcription polymerase chain reaction assay for P. yoelii 18S rRNA, we found liver infection of op/op mice to be decreased by 84% compared with controls. However, using another way of limiting Kupffer cells, treatment with liposomeencapsulated clodronate, infection of normal mice was enhanced seven-to 15-fold. This was explained by electron microscopy showing temporary gaps in the sinusoidal cell layer caused by this treatment. Thus, Kupffer cell deficiency in op/op mice decreases sporozoite infection by reducing the number of portals to the liver parenchyma, whereas clodronate increases sporozoite infection by opening portals and providing direct access to hepatocytes. Together these data provide strong support for the hypothesis that Kupffer cells are the portal for sporozoites to hepatocytes and critical for the onset of a malaria infection.
Continuous axenic culture of Pneumocystis carinii has been achieved. A culture vessel is used that allows for frequent medium exchange without disturbance of organisms that grow attached to a collagen-coated porous membrane. The growth medium is based on Minimal Essential Medium with Earle's salt supplemented with S-adenosyl-Lmethionine, putrescine, ferric pyrophosphate, N-acetyl glucosamine, putrescine, p-aminobenzoic acid, L-cysteine and L-glutamine, and horse serum. Incubation is in room air at 31°C. The pH of the medium begins at 8.8 and rises to Ϸ9 as the cells grow. Doubling times calculated from growth curves obtained from cultures inoculated at moderate densities ranged from 35 to 65 hours. With a low-density inoculum, the doubling time is reduced to 19 hours. The morphology of cultured organisms in stained smears and in transmission electron micrographs is that of P. carinii, and P. cariniispecific mAbs label the cultured material. Cultured organisms are infective for immunosuppressed rats and can be stored frozen and used to reinitiate culture.
A structural analog, 5'-{[(Z)4-amino-2-butenyl]methylamino}-5'-deoxyadenosine (MDL 73811), of decarboxy S-adenosyl-L-methionine, the product of the reaction catalyzed by S-adenosyl-L-methionine (AdoMet) decarboxylase (DC), was found to inhibit Trypanosoma brucei brucei AdoMet DC. The inhibition was time dependent (T.s, 0.3 min), exhibited pseudo-first-order kinetics (Ki, 1.5 ,uM), and was apparently irreversible.The natural substrate of the reaction, AdoMet, protected the enzyme from inactivation, suggesting that MDL 73811 was directed at the enzyme active site and was probably catalytically activated. Administration of MDL 73811 to T. b. brucei-infected rats resulted in rapid inhibition of AdoMet DC activity, a decrease in spermidine, and an increase in putrescine in the trypanosomes isolated from treated rats. Treatment of T. b. brucei-infected mice with MDL 73811 (20 mg/kg of body weight intraperitoneally twice daily for 4 days) resulted in cures of the trypanosome infections. Additionally, drug-resistant T. brucei rhodesiense infections in mice were cured by either a combination of MDL 73811 (50 mg/kg intraperitoneally three times per day for 5 days) and relatively low oral doses of a-difluoromethylornithine or MDL 73811 (50 mg/kg per day for 7 days) administered alone in implanted miniosmotic pumps. These data suggest that MDL 73811 and, perhaps, other inhibitors of AdoMet DC have potential for therapeutic use in various forms of African trypanosomiasis.
SummaryHere we report the presence of a trans-sialidase on the surface of Trypanosoma brucei culturederived procyclic trypomastigotes. The enzyme is not detected in lysates of bloodstream trypomastigotes enriched for either stumpy or slender forms. The trans-sialidase catalyzes the transfer of ot(2-3)-linked sialic acid residues to lactose./3-galactopyranosyl residues are at least 100 times better acceptors for sialic acid than ot-galactopyranosyl residues. In the absence of efficient acceptors, the purified enzyme transfers sialic acid to water, i.e., it acts as a sialidase. Although the T. cruzi and T. brucei trans-sialidases have very similar donor and acceptor specificities, they are antigenicaUy distinct. Sodium dodecyl sulfate--polyacramide gel electrophoresis under nonreducing conditions and silver staining of the purified trans-sialidase reveals a single band of 63 kD. When the surface membrane of live procyclic trypomastigotes is trans-sialylated, using radioactive sialyllactose as the donor substrate, it appears that the only sialylated surface molecule is procyclin. Pronase treatment of live parasites removes only part of the surface sialic acid, in agreement with recent data showing that the glycosylphosphatidylinositol anchor of procyclin is sialylated (Ferguson, M. A. J., M. Murray, H. Rutherford, and M. J. McConville. 1993. Biochern. J. In press).
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