Regina Milder

Heat shock induction of apoptosis in promastigotes of the unicellular organism Leishmania (Leishmania) amazonensis.

Apoptosis and/or programmed cell death have been described in examples ranging from fungi to man as gene‐regulated processes with roles in cell and tissue physiopathology. These processes require the operation of an intercellular communicating network able to deliver alternative signals for cells with different fates and is thus considered a prerogative of multicellular organisms. Promastigotes from Leishmania (Leishmania) amazonensis, when shifted from their optimal in vitro growth temperature (22°C) to the temperature of the mammalian host (37°C), die by a calcium‐modulated mechanism. More parasites die in the presence of this ion than in its absence, as detected by a colorimetric assay based on the activity of mitochondrial and cytoplasmic dehydrogenases which measures cell death, independently of the process by which it occurs. A heat shock, unable to induce detectable parasite death (34°C for 1 h), is able to significantly raise the concentration of intracellular free calcium in these cells. Heat‐shocked parasites present ultrastructural and molecular features characteristic of cells dying by apoptosis. Morphological changes, observed only in the presence of calcium, are mainly nuclear. Cytoplasmic organelles are preserved. Heat shock is also able to induce DNA cleavage into an oligonucleosomal ladder detected in agarose gels by ethidium bromide staining and autoradiography of [α32P]ddATP‐labeled fragments. These results indicate that death by apoptosis is not exclusive of multicellular organisms.

Phylogenetic validation of the genera Angomonas and Strigomonas of trypanosomatids harboring bacterial endosymbionts with the description of new species of trypanosomatids and of proteobacterial symbionts.

We comparatively examined the nutritional, molecular and optical and electron microscopical characteristics of reference species and new isolates of trypanosomatids harboring bacterial endosymbionts. Sequencing of the V7V8 region of the small subunit of the ribosomal RNA (SSU rRNA) gene distinguished six major genotypes among the 13 isolates examined. The entire sequences of the SSU rRNA and glycosomal glyceraldehyde phosphate dehydrogenase (gGAPDH) genes were obtained for phylogenetic analyses. In the resulting phylogenetic trees, the symbiont-harboring species clustered as a major clade comprising two subclades that corresponded to the proposed genera Angomonas and Strigomonas. The genus Angomonas comprised 10 flagellates including former Crithidia deanei and C. desouzai plus a new species. The genus Strigomonas included former Crithidia oncopelti and Blastocrithidia culicis plus a new species. Sequences from the internal transcribed spacer of ribosomal DNA (ITS rDNA) and size polymorphism of kinetoplast DNA (kDNA) minicircles revealed considerable genetic heterogeneity within the genera Angomonas and Strigomonas. Phylogenetic analyses based on 16S rDNA and ITS rDNA sequences demonstrated that all of the endosymbionts belonged to the Betaproteobacteria and revealed three new species. The congruence of the phylogenetic trees of trypanosomatids and their symbionts support a co-divergent host-symbiont evolutionary history.

Molecular phylogenetic redefinition of Herpetomonas (Kinetoplastea, Trypanosomatidae), a genus of insect parasites associated with flies.

In order to review the taxonomy of the genus Herpetomonas through phylogenetic and morphological analyses we barcoded 527 insect trypanosomatids by sequencing the V7V8 region of the small subunit ribosomal RNA (SSU rRNA) gene. Fifty two flagellates, 90% of them from Diptera, revealed to be related to known species of Herpetomonas. Sequences of entire glycosomal glyceraldehyde phosphate dehydrogenase (gGAPDH) and SSU rRNA genes were employed for phylogenetic inferences including representatives of all genera of Trypanosomatidae. In the resulting phylogenetic trees, the selected flagellates clustered into a monophyletic assemblage that we are considering as the redefined genus Herpetomonas. Internal transcribed spacer 1 (ITS1) rDNA sequences and putative secondary structures of this region were compared for evaluation of inter- and intraspecific variability. The flagellates were classified in six already known species and five new species. In addition, two Leptomonas spp. were moved to Herpetomonas, now comprising 13 valid species, while four species were excluded from the genus. Light and electron microscopy revealed the extreme polymorphism of Herpetomonas, hindering genus and species identification by morphological characteristics. Our findings also showed that some species of Herpetomonas are generalist parasites of flies and appear to be as cosmopolitan as their hosts.

Naturally acquired infections with Leishmania enriettii Muniz and Medina 1948 in guinea-pigs from São Paulo, Brazil

Two domestic guinea-pigs (Cavia porcellus), bought in Pinheros, São Paulo State, Brazil, were taken by their owners to a farm in the rural district of Capão Bonito, close to the Atlantic Forest, São Paulo, where they both developed tumour-like and ulcerating lesions on the ears. The causative agent was identified as Leishmania (L.) enriettii, based on biological characters and isoenzyme profiles. Sources of the parasite in wild mammals, and the possible sandfly vector species are discussed.

GROWTH PHASE AND MEDIUM pH MODULATE THE EXPRESSION OF PROTEINASE ACTIVITIES AND THE DEVELOPMENT OF MEGASOMES IN AXENICALLY CULTIVATED LEISHMANIA (LEISHMANIA) AMAZONENSIS AMASTIGOTE–LIKE ORGANISMS

Leishmania (Leishmania) amazonensis LV79 (MPRO/BR/72/M1841) has been adapted to grow at 33 C as amastigote-like (AL) organisms in modified UM-54 medium initially adjusted to a pH of 4.8–5.0. Axenic cultures could be routinely restarted from parasites recovered from footpad lesions obtained by inoculation of BALB/c mice with preadapted culture stages. Morphological features, proteinase activities, and infectivity of AL organisms were examined during the in vitro growth cycle, and differences were found between log- and stationary-phase parasites. Stationary-phase AL organisms were morphologically similar to lesion amastigotes, did not react with a paraflagellar rod-specific monoclonal antibody in western blots, and contained proteinase activities resolving identically to the enzymes of lesion amastigotes in gelatin gels. Whereas typical megasomes could be identified in about a third of the stationary-phase AL population, the organelles were rarely seen in log-phase organisms. Azocaseinolytic activity progressively increased during the exponential growth phase and reached its highest values (∼65–70% of those determined in lesion amastigotes) at the stationary phase; the association of total proteinase activity with increased expression of cysteine proteinases was indicated by the strong inhibition of azocasein hydrolysis by E-64, the intensified banding of the 28-, 31-, and 35-kDa proteinases in gelatin gels, and the higher susceptibility of stationary-phase AL organisms to l-leucine methyl ester. Although overall axenic amastigotes were less infective to BALB/c mice than were lesion-derived parasites, stationary-phase AL organisms were more infective than were log-phase parasites. Medium pH increased during the exponential growth phase, but dropped in the stationary phase, when the observed morphological, biochemical, and biological changes became apparent.

Encystment and excystment of a trypanosomatid of the genus Leptomonas

Summary Morphological events leading to cyst formation in a cyst-bearing Leptomonas sp. isolated from the hemipteran Oncopeltus varicolor were monitored by light and electron microscopy. In LIT cultures, cyst-bearing flagellates appear at the end of the lag phase and from then on the number of detached mature cysts increases steadily. The cysts develop at the point of the flagellum-cell body junction from the parental flagellate. Plasma-membranes of flagellate and cysts remain connected while they remain attached. Immature cysts present microtubules and a large tubular mitochondrion. Mature cysts are dense, ovalshaped, with few distinguishable organelles, such as a modified nucleus, a rudimentary flagellar pocket and a network of fibrils possibly of kinetoplast origin. During excystation, cysts gradually regain the missing organelles and morphological features of active promasti-gotes. Even cysts, with a very dense and distinct chromatin, retain the ability to undergo cell division in culture.

Ultrastructural study of the host-parasite relationship of trypanosomatids in the housefly

The course of experimental oral infection ofMusca domestica withHerpetomonas samuelpessoai and two new isolates from houseflies was followed for up to 40 days using optical and electron microscopy. The flys rectum was found to be the preferential site of colonization by flagellates, mainly at places near papillar insertions but not on the papillae themselves. Midgut infection was transient, and infection of the crop did not last longer than 1 week. Promastigotes were the predominant colonizing forms and could be seen either free in the gut lumen or attached via hemidesmosomes to the rectum wall. Adherent flagellates exhibited flagellar projections and surface membrane blebs. Many flagellates displayed longitudinal body foldings yielding star-like images in cross sections. Opisthomastigotes could be seen in small numbers as free swimmers, mainly in the rectum.

In Vivo and In Vitro Phosphorylation and Subcellular Localization of Trypanosomatid Cytoskeletal Giant Proteins

Promastigote forms of Phytomonas serpens, Leptomonas samueli, and Leishmania tarentolae express cytoskeletal giant proteins with apparent molecular masses of 3,500 kDa (Ps 3500), 2,500 kDa (Ls 2500), and 1,200 kDa (Lt 1200), respectively. Polyclonal antibodies to Lt 1200 and to Ps 3500 specifically recognize similar polypeptides of the same genera of parasite. In addition to reacting with giant polypeptides of the Leptomonas species, anti-Ls 2500 also cross reacts with Ps 3500, and with a 500-kDa polypeptide of Leishmania. Confocal immunofluorescence and immunogold electron microscopy showed major differences in topological distribution of these three proteins, though they partially share a common localization at the anterior end of the cell body skeleton. Furthermore, Ps 3500, Ls 2500, and Lt 1200 are in vivo phosphorylated at serine and threonine residues, whereas, in vitro phosphorylation of cytoskeletal fractions reveal that only Ps 3500 and Ls 2500 are phosphorylated. Heat treatment (100 degrees C) of high salt cytoskeletal extracts demonstrates that Ps 3500 and Ls 2500 remain stable in solution, whereas Lt 1200 is denatured. Kinase assays with immunocomplexes of heat-treated giant proteins show that only Ps 3500 and Ls 2500 are phosphorylated. These results demonstrate the existence of a novel class of megadalton phosphoproteins in promastigote forms of trypanosomatids that appear to be genera specific with distinct cytoskeletal functions. In addition, there is also evidence that Ps 3500 and Ls 2500, in contrast to Lt 1200, seem to be autophosphorylating serine and threonine protein kinases, suggesting that they might play regulatory roles in the cytoskeletal organization.

Trypanosoma cruzi interaction with macrophages: differences between tissue culture and bloodstream forms

Mouse peritoneal elicited macrophages cultured on coverslips were infected with Trypanosoma cruzi trypomastigotes from both the F strain and Y strain obtained either from tissue culture or from the bloodstream of infected mice. Both the Y strain and F parasites obtained from tissue culture were interiorized by macrophages at a much higher rate than bloodstream trypomastigotes. Tissue culture parasites incubated with normal mouse serum, mouse plasma obtained at the 7th day after infection, or specific hyperimmune serum at subagglutinating concentration, behaved essentially as non-opsonized parasites. Ultrastructural differences were seen at the early interaction phase between macrophages and trypimastigotes from both sources. After 30 minutes, tissue culture trypomastigotes were located in clusters at the area of contact with macrophages. While bloodstream trypomastigotes, at 3 hours post-infection were most frequently enclosed in a loose phagocytic vacuole, tissue culture trypomastigotes were enclosed in single tight vacuoles. Both tissue culture and bloodstream trypomastigotes of the Y strain multiplied within macrophages; F strain bloodstream trypomastigotes did not develop within the host cells, while tissue culture trypomastigotes multiplied.

Intracytoplasmic flagellum in trypanosomatids.

Electron microscopy of thin sections and detergent extracted preparations of certain trypanosomatids of the genus Phytomonas revealed the unusual presence in some flagellates of an intracytoplasmic flagellum which appears as a naked axoneme encircling the nucleus before emerging at the anterior end of the cell. Another feature of these atypical flagellates is the absence of the flagellar pocket normally present in trypanosomatids at the emergence of the flagellum.