Experimental immunity against trypanosomiasis in rabbits

Rabbits were immunized with specially prepared subcellular fractions of a cloned Trypanosoma brucei brucei stock 427. One fraction was found to be highly immunoprophylactic in rabbits exposed to the vector fly genus Glossina m. morsitans (tsetse flies) infected with EATRO Trypanosoma brucei brucei 1969. The most immunoprotective fraction IPFA from T. b. brucei 427 gave 75% protection to animals challenged by EATRO T. b. brucei 1969. IPFA also showed the highest IgG antibody titre against the heterologous and homologous strains. In in vitro studies, the sera from these immunized rabbits killed different strains of parasites, T.b. brucei strains 1969 and 999 which were grown in continuous culture of salivary gland cells from G.m. morsitans.

Trypanosoma brucei brucei: in vitro production of metacyclic forms

An in vitro method has been established to obtain metacyclic form populations of Trypanosoma brucei brucei. Trypanosome populations containing more than 98% of metacyclic forms were obtained from cultures which were: 1) initiated with bloodstream forms in primary cultures in the presence of Microtus montanus embryonic fibroblast-like cells (feeder cell layers); 2) maintained in glucose-free Eagle's minimum essential medium supplemented with 10 mM L-proline, 2 mM L-glutamine and 20% (v/v) fetal bovine serum at 27 degrees C without medium change for five days; 3) subcultured in the absence of the feeder cell layers but in the presence of Cytodex 3 beads; 4) maintained for an additional nine days with medium changes on days 5, 8 and 11; and 5) harvested on day 14 by means of diethylaminoethyl cellulose column chromatography prior to the appearance of other infective forms. Most of the trypanosomes obtained under these conditions were morphologically similar to metacyclic forms derived from tsetse fly vectors, coated with variable surface glycoprotein and were infective for mice. In the primary cultures procyclic forms, epimastigotes and metacyclic forms appeared by day 8. When the duration of the subculture was prolonged to 17 days or more at 27 degrees C, the metacyclic forms decreased in number while short trypomastigotes, long slender epimastigotes, and long slender trypomastigotes increased in number. These forms in such long-term cultures also appeared in diethylaminoethyl cellulose-isolated populations along with metacyclic forms.

Trypanosoma (Nannomonas) congolense: changes in respiratory metabolism during the life cycle

All four life cycle stages (bloodstream, procyclic, epimastigote, and metacyclic) of Trypanosoma congolense IL 3000 were assayed with an oxygen electrode (polarograph) for the presence of terminal oxidases and carbon-source preference. In addition, these stages were used for histochemical analysis of mitochondrial activity using rhodamine 123, nitroblue tetrazolium, and diaminobenzidine. Morphometry was used to compare mitochondrial volumes and surface area among the different life cycle stages. It was found that in contrast to epimastigote forms, which were metabolically almost identical to procyclic forms, metacyclic forms showed characteristics of, and seemed preadapted to, differentiation into the bloodstream stage. While mitochondrial NAD+ diaphorase activity and an electrochemical potential were detected in all life cycle stages, metacyclic metabolism was glucose-based and terminal oxidase activity was primarily dependent upon the trypanosome alternative oxidase with the contribution of cyanide-sensitive respiration accounting for only 20-30% of the total respiratory capacity.

Trypanosoma brucei: infectivity and immunogenicity of cultured parasites

Trypanosoma brucei brucei, derived from the salivary glands of infected tsetse flies (Glossina morsitans morsitans) and maintained in culture for over 4 years, were infective to both albino rats and tsetse flies. Virulence was markedly enhanced during the first passage in albino rats or tsetse flies. Irradiated cultured trypanosomes induced immunity to homologous challenge but not to tsetse fly or blood-induced challenge with the same stock.

Cultivation of infective forms of Trypanosoma congolense from trypanosomes in the proboscis of Glossina morsitans

Two stocks of Trypanosoma congolense were established in culture at 28 degrees C using trypanosomes from the proboscides of infective Glossina morsitans. Successful primary cultures were initiated by placing an infected tsetse proboscis beside a bovine dermal collagen explant in Eagle's minimum essential medium supplemented with foetal calf serum. The trypanosomes multiplied rapidly in the medium and also gradually formed an adherent layer o the plastic surface of the culture vessel. Three primary cultures produced organisms infective for mice from 14, 20 and 35 days after initiation and thereafter continuously until days 76, 76 and 52 when they were discarded. Four attempts to initiate infective cultures using infected tsetse proboscides in medium without dermal explants were unsuccessful. When trypanosomes from primary cultures were placed in culture medium with proboscides from uninfected tsetse flies, the parasites multiplied, formed an adherent layer in the culture flasks and were seen in the proboscides within 24 h. A line of 1 stock was serially sub-passaged in this way 4 times during a period of 215 days. Infectivity titrations in mice indicated that primary and sub-passaged cultures each contained similar numbers of infective organisms. Another line of the same stock was also sub-passaged 4 times in medium alone over a period of 186 days. These sub-cultures again retained infectivity for mice, but titrations showed a decrease in infective organism production in the 4th sub-culture. Primary and sub-passaged cultures all included a variety of morphologically different developmental forms of T. congolense, closely resembling those described in the labrum and hypopharynx of Glossina by previous workers. Short metacyclic-like trypanosomes and organisms with proteinaceous surface coats were present in infective cultures. Cultures were successfully re-established after cryopreservation at -196 degrees C and retained the ability to produce infective organisms.