Purification of the paraflagellar rod of the trypanosomatid Herpetomonas megaseliae and identification of some of its minor components.

The paraflagellar rod (PFR) is a component of the flagellar cytoskeleton of trypanosomatid protozoa, representing a filamentous structure that runs alongside the common 9 + 2 microtubular axoneme. The high degree of ultrastructural complexity and organization of the PFR suggests that it might be formed by numerous biochemical components. However, biochemical analysis of the PFR has revealed, to date, a modest degree of complexity in what concerns both major and minor PFR proteins. In this paper the preparation of purified PFR fractions by a combination of conventional cell-fractionation procedures, non-ionic detergent treatment and limited proteolysis is described. Comparative SDS-PAGE analysis of the different purification steps indicates that the purified PFR fractions possess high amounts of the well-known major PFR proteins (77 and 83 kDa). Also, bands of 147, 139, 129 and 122 kDa are clearly enriched in such fractions and may correspond to minor PFR components. A slight enrichment in a specific fraction of a doublet of bands of 181/188 kDa suggest the participation of these proteins in the composition of the bridges between the PFR and the axoneme.

Isolation and biochemical characterization of the costa of Tritrichomonas foetus.

The costae are cytoskeletal structures found in Trichomonadidae. Both the structural organization and composition of this organelle are still unknown. In the present work we have introduced a new methodology for the costa isolation. Using sucrose density-gradient centrifugation an enriched costa fraction was obtained. Analyses by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) showed that the costa contains several proteins, with major bands corresponding to apparent molecular masses of 122, 115, 112, 93, 87, 82, 59, 52, 44, 41, 32, and 26 kDa. No significant amount of carbohydrates was detected in the costa fraction. The fractionation methodology described here has the advantage of using normal centrifugation methods and is being applied to trichomonas in the size range of Tritrichomonas foetus and Trichomonas vaginalis.

Isolation and characterization of a highly purified flagellar membrane fraction from trypanosomatids.

The flagellar membrane of trypanosomatids has certain ultrastructural and antigenic characteristics that make its biochemical analysis very interesting. We have obtained a highly purified flagellar membrane fraction from epimastigotes of Trypanosoma cruzi and promastigotes of Herpetomonas samuelpessoai. The fractions consisted of regular spherical vesicles. Membrane fractions fixed in a glutaraldehyde solution containing filipin and freeze-fractured showed few intramembranous particles, and many protuberances indicative of filipin-sterol complexes. The protein composition of all the subflagellar fractions was analysed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The flagellar membrane fraction showed more than twenty bands. We wish particularly to point out the presence of six bands corresponding to proteins of 160, 135, 41, 31, 26 and 18 kDa which were not present in the axoneme-paraxial structure fraction. The blot of flagellar membrane proteins successively incubated with concanavalin A and horseradish peroxidase showed intense binding of the lectin to proteins of 117 and 87 kDa, and less strong binding to several other minor bands. Our results showed that although the membrane of the flagellum of trypanosomatids had few proteins, it seemed rich in glycosylated elements.

Tritrichomonas foetus: ultrastructure and cytochemistry of endocytosis.

Tritrichomonas foetus ingests horseradish peroxidase, native ferritin, cationized ferritin, and 0.08 micron latex beads by a process which involves the formation of pinocytic vesicles. These vesicles fuse with each other and with lysosomes forming large vacuoles. Biochemical determinations on the ingestion of horseradish peroxidase and morphometric analysis on the ingestion of cationized ferritin covered latex beads indicated that T. foetus has high endocytic activity. The process of ingestion of the various tracers used was analyzed by transmission electron microscopy of thin sections and freeze fracture replicas.