We report the morphological, biochemical and molecular characteristics of a trypanosomatid isolated from the flower of Cucurbita moschata. Although the trypanosomatid was isolated from a plant, the lack of recognition of Phytomonas-specific molecular markers based on spliced-leader and ribosomal genes as well as by monoclonal antibodies specific for Phytomonas argues against assigning it to this genus. Because the isolate displayed typical opisthomastigote forms in culture, it is assigned to the genus Herpetomonas. Analysis of randomly amplified polymorphic DNA (RAPD) patterns and characterization of ribosomal SSU and ITS markers suggest that it is more closely related to H. samuelpessoai than to any other species. However, the presence of spined flagellates in culture (displaying lateral expansions of the plasma membrane originating near the flagellar pocket) and isolate-specific RAPD fingerprints argue strongly that the trypanosomatid belongs to a new subspecies, for which the name Herpetomonas samuelpessoai camargoi n. subsp. is proposed.
Herpetomonas roitmani, a non-pathogenic trypanosomatid was grown in chemically defined media either containing proline or glucose as carbon source. Using transmission electron microscopy we observed that cells grown in the presence of proline present more lipid inclusions, and a larger mitochondrion with more cristae and higher activity of succinate cytochrome c reductase. On the other hand, cells grown with glucose as carbon source had more glycosomes, which were preferentially located close to the bacterium endosymbiont, and a much higher activity of hexokinase, a typical glycosome marker. Three-dimensional reconstruction and morphometrical analysis confirm these observations. The number of promastigotes of H. roitmani increased in the presence of proline. Taken together these results indicate that the growth conditions markedly influenced the ultrastructure and the metabolism of H. roitmani.
The flagellate Herpetomonas roitmani is a symbiont-bearing trypanosomatid that spontaneously differentiates from promastigote to para- and opisthomastigote forms when maintained in axenic culture medium. Thus, after cultivation for 72 h at 28 degrees C, 37% of the total number of cells are in the opisthomastigote form. In the present study, light microscopy observations of Giemsastained H. roitmani cells demonstrated that in early cultures (12 h at 28 degrees C) the percentage of opisthomastigotes was markedly high (about 98%). Furthermore, proliferative opisthomastigote forms (dividing cells with the kinetoplast posteriorly located relative to the nucleus) were frequently seen in these cultures. The latter observation was confirmed by analysis of routinely fixed parasites by transmission electron microscopy.
Cell surface saccharide composition and surface charge of promastigote (PRO) and opisthomorph (OPM) forms of Herpetomonas roitmani were analyzed using labeled lectins and flow cytometry and cell electrophoresis. The FITC signals for concanavalin A, Helix pomatia agglutinin and wheat germ agglutinin were stronger in PRO forms, whereas for Limulus polyphemus agglutinin (LPA) and Wisteria floribunda agglutinin they were stronger in OPM forms. Prior treatment of the cells with neuraminidase decreased the FITC signal for LPA in OPM but not in PRO forms. Furthermore OPMs displayed a high negative charge (-15.45+/-1.10 mV) than PROs (-9.47+/-1.01 mV). Neuraminidase and phospholipase C treatment of the parasites significantly reduced the surface charge, especially in OPM forms. TLC analysis of the acidic components of H. roitmani showed the presence of N-acetyl-neuraminic acid. The results presented in this work indicate that changes in exposed cell surface components occur between PRO and OPM forms of H. roitmani obtained by growing the cells under different conditions.
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