Platelet-activating factor modulates a secreted phosphatase activity of the trypanosomatid parasite Herpetomonas muscarum muscarum.

In the present work we characterized the secreted phosphatase activity of the trypanosomatid parasite Herpetomonas muscarum muscarum. This housefly parasite hydrolyzed p-nitrophenylphosphate at a rate of 10.26 nmol Pi/mg protein/min. Classical inhibitors of acid phosphatases, such as sodium orthovanadate (NaVO3), sodium fluoride (NaF), and ammonium molybdate promoted a decrease in this phosphatase activity. When the parasites were assayed in the presence of sodium tartrate, an inhibitor of Leishmania spp-secreted acid phosphatases, this activity was drastically diminished. Cytochemical analysis showed the localization of this enzyme on the external surface and in the flagellar pocket of these parasites. Sodium tartrate inhibited this reaction, confirming the biochemical data. Platelet-activating factor (PAF) inhibited the phosphatase activity determined in the supernatant of living H. m. muscarum.

Dimethyl sulphoxide enhances the effects of P(i) in myofibrils and inhibits the activity of rabbit skeletal muscle contractile proteins.

In the catalytic cycle of skeletal muscle, myosin alternates between strongly and weakly bound cross-bridges, with the latter contributing little to sustained tension. Here we describe the action of DMSO, an organic solvent that appears to increase the population of weakly bound cross-bridges that accumulate after the binding of ATP, but before P(i) release. DMSO (5-30%, v/v) reversibly inhibits tension and ATP hydrolysis in vertebrate skeletal muscle myofibrils, and decreases the speed of unregulated F-actin in an in vitro motility assay with heavy meromyosin. In solution, controls for enzyme activity and intrinsic tryptophan fluorescence of myosin subfragment 1 (S1) in the presence of different cations indicate that structural changes attributable to DMSO are small and reversible, and do not involve unfolding. Since DMSO depresses S1 and acto-S1 MgATPase activities in the same proportions, without altering acto-S1 affinity, the principal DMSO target apparently lies within the catalytic cycle rather than with actin-myosin binding. Inhibition by DMSO in myofibrils is the same in the presence or the absence of Ca(2+) and regulatory proteins, in contrast with the effects of ethylene glycol, and the Ca(2+) sensitivity of isometric tension is slightly decreased by DMSO. The apparent affinity for P(i) is enhanced markedly by DMSO (and to a lesser extent by ethylene glycol) in skinned fibres, suggesting that DMSO stabilizes cross-bridges that have ADP.P(i) or ATP bound to them.

Secreted phosphatase activities in trypanosomatid parasites of plants modulated by platelet-activating factor.

ABSTRACT The secreted phosphatase activities of two trypanosomatid parasites were characterized and compared with supernatants of living cells. The plant parasite Phytomonas françai and the phytophagous hemipteran parasite Herpetomonas sp. hydrolyzed p-nitrophenylphosphate at a rate of 15.54 and 6.51 nmol Pi/mg of protein per min, respectively. Sodium orthovanadate (N(a)VO(3)) and sodium fluoride (NaF) decreased the phosphatase activities. The phosphatase activity of P. françai was drastically diminished (73% inhibition) in the presence of sodium tartrate, whereas the phosphatase activity of Herpetomonas sp. was inhibited by 23%. Cytochemical analysis showed the localization of these enzymes on the external surface and in the flagellar pocket of the two trypanosomatids. Sodium tartrate inhibited this reaction, confirming the biochemical data. Platelet-activating factor modulated the phosphatase activities, inhibiting P. françai activity and stimulating Herpetomonas sp. phosphatase activity.

Ultrastructural and biochemical characterization of promastigote and cystic forms of Leptomonas wallacei n. sp. isolated from the intestine of its natural host Oncopeltus fasciatus (Hemiptera: Lygaeidae).

Promastigote forms of a trypanosomatid were isolated from the third and fourth ventricles of the midgut and from the hindgut of the phytophagous hemipteran Oncopeltus fasciatus. Some individuals had adhered to its anterior region, close to the flagellar pocket, or to the flagellum up to four rounded aflagellated forms known as straphangers cysts. Scanning electron microscopy revealed that the flagellated forms presented a twisted cell body and a long flagellum, and the cysts, smaller than the parental promastigote, had a nascent flagellum. Transmission electron microscopy showed that promastigotes were typical, while cystic forms were ovoid dense cells devoid of a cyst wall, but presenting a cell coat, a special subpellicular region limited by a membrane unit, and a condensed cytoplasm. The kinetoplast-DNA fibrils appeared as dense spots and the condensed chromatin was arranged in a labyrinthic structure. Desmosome-like structures, observed in the region of adhesion of the precystic forms to the parental promastigote, could explain how cysts remain attached to the mother cell during the encystation process. Release of membranes from the surface of promastigotes and cysts seems to be correlated with the condensation of the cytoplasm during encystment. Morphological and isozyme analyses indicated that this trypanosomatid belongs to the genus Leptomonas. The molecular karyotype of this isolate was compared with that of a strain of Leptomonas oncopelti obtained from Oncopeltus varicolor by contour-clamped homogeneous electric field (CHEF) electrophoresis and revealed similar DNA banding patterns between 2,200-825 Kb, but not in lower bands (825-225 Kb). This suggested that the isolate from O. fasciatus and that from O. varicolor were not identical. Based on our findings we are describing Leptomonas wallacei n. sp. for our isolate from O. fasciatus.

Characterization of ectophosphatase activities in trypanosomatid parasites of plants.

ABSTRACT In the present work ectophosphatase activities of three trypanosomatid parasites of plants were characterized using intact cells. Phytomonas françai, Phytomonas mcgheei, and Herpetomonas sp. hydrolyzed p-nitro-phenylphosphate at a rate of 5.40, 7.28, and 25.58 nmol Pi/mg of protein per min, respectively. Experiments using classical inhibitors of acid phosphatases such as sodium orthovanadate (NaVO(3)) and sodium fluoride (NaF) showed a decrease in phosphatase activities. Lithium fluoride (LiF) and aluminum chloride (AlCl(3)) were also used. Although AlCl3 had no effect, LiF was able to promote a decrease in the phosphatase activities. Interestingly, the inhibition caused by LiF was enhanced by the addition of AlCl3 during the reaction, probably due to the formation of fluoroaluminate complexes. This effect was confirmed by cytochemical analysis. In this assay, electron-dense cerium phosphate deposits were visualized on the external surface of the three parasites.