Fine structural alterations in Trypanosoma rhodesiense grown in vitro, treated with WR 163577

Fine-structural alterations in Trypanosoma rhodesiense trypomastigotes exposed to WR 163577, a prophylactic agent against animal African trypanosomiasis, were determined from cells grown in vitro. Exposure of trypomastigotes to a low concentration of drug resulted only in condensation of kinetoplast DNA fibrils. Exposure to higher drug concentrations caused clumping of nuclear chromatin and of cytoplasmic contents. Although alteration of kinetoplast DNA is the first detectable drug-induced change, the function of the kinetoplast in mammalian forms of African trypanosomes is unclear, and the secondary changes in the nucleus and cytoplasm may constitute the functionally significant alterations caused by WR 163577.     

Trypanosoma pacifica sp. n. from the English Sole Parophrys vetulus Girard from Oregon*

Trypanosoma pacifica sp. n. is described from the blood of the English sole, Parophrys vetulus Girard, from Oregon. The total length averages 35.9 μm of which 15.4 μm is free flagellum. Comparisons are made with other trypanosomes reported from related species of fishes and with those reported from marine fishes adjacent to North America.     

In Vitro Cellular Division of Trypanosoma abeli Reveals Two Pathways for Organelle Replication

Since the observation of the great pleomorphism of fish trypanosomes, in vitro culture has become an important tool to support taxonomic studies investigating the biology of cultured parasites, such as their structure, growth dynamics, and cellular cycle. Relative to their biology, ex vivo and in vitro studies have shown that these parasites, during the multiplication process, duplicate and segregate the kinetoplast before nucleus replication and division. However, the inverse sequence (the nucleus divides before the kinetoplast) has only been documented for a species of marine fish trypanosomes on a single occasion. Now, this previously rare event was observed in Trypanosoma abeli, a freshwater fish trypanosome. Specifically, from 376 cultured parasites in the multiplication process, we determined the sequence of organelle division for 111 forms; 39% exhibited nucleus duplication prior to kinetoplast replication. Thus, our results suggest that nucleus division before the kinetoplast may not represent an accidental or erroneous event occurring in the main pathway of parasite reproduction, but instead could be a species‐specific process of cell biology in trypanosomes, such as previously noticed for Leishmania. This “alternative” pathway for organelle replication is a new field to be explored concerning the biology of marine and freshwater fish trypanosomes.     

A Light and Electron Microscopic Study of Trypanosoma fallisi N. Sp. in Toads (Bufo americanus) from Algonquin Park, Ontario

Trypanosoma fallisi n. sp. is described from Bufo americanus in Ontario. The parasite was observed in 65 of 94 toads examined. The trypanosomes were pleomorphic with respect to the age of infections, being longer and broader in early infections (during spring and summer) and shorter and more slender during late summer and autumn. They ranged in size from 38–76 μm in body length and 3–8 μm in width, with a free flagellum 6–30 μm long. Epizootiological and experimental evidence suggests that this trypanosome is transmitted to the toads by the leech, Batracobdella picta. Trypanosoma fallisi is morphologically similar to T. bufophlebotomi described in Bufo boreas from California, but geographic isolation, host and vector differences as well as slight morphological differences indicate that speciation has occurred. Similar trypanosomes from Bufo americanus (which were identified as T. bufophlebotomi) in Michigan, are probably T. fallisi. This species shares many ultrastructual features with trypanosomes of other lower vertebrates and also of mammals.     

Stage-specific differences in cell cycle control in Trypanosoma brucei revealed by RNA interference of a mitotic cyclin

African trypanosomes have a tightly coordinated cell cycle to effect efficient segregation of their single organelles, the nucleus, flagellum, and kinetoplast. To investigate cell cycle control in trypanosomes, a mitotic cyclin gene (CYC6) has been identified in Trypanosoma brucei. We show that CYC6 forms an active kinase complex with CRK3, the trypanosome CDK1 homologue, in vivo. Using RNA interference, we demonstrate that absence of CYC6 mRNA results in a mitotic block and growth arrest in both the insect procyclic and mammalian bloodstream forms. In the procyclic form, CYC6 RNA interference generates anucleate cells with a single kinetoplast, whereas in bloodstream form trypanosomes, cells with one nucleus and multiple kinetoplasts are observed. Fluorescence-activated cell sorting analysis shows that bloodstream but not procyclic trypanosomes are able to reinitiate nuclear S phase in the absence of mitosis. Taken together, these data show that procyclic trypanosomes can undergo cytokinesis without completion of mitosis, whereas a mitotic block in bloodstream form trypanosomes inhibits cytokinesis but not kinetoplast replication and segregation nor an additional round of nuclear DNA synthesis. This indicates that there are fundamental differences in cell cycle controls between life cycle forms of T. brucei and that key cell cycle checkpoints present in higher eukaryotes are absent from trypanosomes.     

A New Species of Blood Trypanosome from Little Penguins (Eudyptula minor) in Tasmania

ABSTRACT. Trypanosoma eudyptulae n. sp. was present in 9 blood smears from 57 Little Penguins (Eudyptula minor Forster) from Tasmania. Trypanosoma eudyptulae is long and slender (with the kinetoplast situated close to the nucleus) with a long and attenuated posterior end. This is the first report of a trypanosome from a penguin.     

Fine Structural Alterations in Trypanosoma rhodesiense Grown In Vitro,Treated with WR 1635771

Fine-structural alterations in Trypanosoma rhodesiense trypomastigotes exposed to WR 163577, a prophylactic agent against animal African trypanosomiasis, were determined from cells grown in vitro. Exposure of trypomastigotes to a low concentration of drug resulted only in condensation of kinetoplast DNA fibrils. Exposure to higher drug concentrations caused clumping of nuclear chromatin and of cytoplasmic contents. Although alteration of kinetoplast DNA is the first detectable drug-induced change, the function of the kinetoplast in mammalian forms of African trypanosomes is unclear, and the secondary changes in the nucleus and cytoplasm may constitute the functionally significant alterations caused by WR 163577.     

The Morphology of Ovine Trypanosoma melophagium (Zoomastigophorea: Kinetoplastida)1

Morphologic and biometric data on bloodstream stages of Trypanosoma melophagium are presented. An increasing parasitemia with 111 trypomastigote stages of T. melophagium were found in Giemsa-stained thin blood smears taken from a splenectomized, cortisone-treated sheep recently infested with Melophagus ovinus infected with T. melophagium. The arithmetic mean and standard deviation in μm of the distances between posterior end and kinetoplast were 14.7 and 2.9, from the kinetoplast to the center of the nucleus 5.1 and 1.1, and from there to the anterior end 19.5 and 1.9. The free flagellum measured 6.0 μm ± 1.6 μm. The median and the range of the central 70% of values (median ± 35%) of the nuclear index were 1.1 and 0.9–1.2 and of the kinetoplastic index 3.8 and 3.3–4.9. The same data in μm for the maximal width were 3.1 and 2.1–4.6, and for the width at the level of the nucleus 2.9 and 2.2–4.6. The larger and smaller diameters of the nucleus measured 2.6 (2.2–3.7) μm and 1.7 (1.3–1.7) μm, respectively. The corresponding kinetoplast diameters were 1.1 (0.9–1.3) μm and 0.9 (0.6–0.9) μm, respectively.     

Leptoconops nosopheris sp. n. (Diptera: Ceratopogonidae) and Paleotrypanosoma burmanicus gen. n., sp. n. (Kinetoplastida: Trypanosomatidae), a biting midge--trypanosome vector association from the Early Cretaceous

Leptoconops nosopheris sp. n. (Diptera: Ceratopogonidae) is described from a blood-filled female biting midge in Early Cretaceous Burmese amber. The new species is characterized by a very elongate terminal flagellomere, elongate cerci, and an indistinct spur on the metatibia. This biting midge contained digenetic trypanosomes (Kinetoplastida: Trypanosomatidae) in its alimentary tract and salivary glands. These trypanosomes are described as Paleotrypanosoma burmanicus gen. n., sp. n., which represents the first fossil record of a Trypanosoma generic lineage.     

Culture and morphological observations on Trypanosoma melphagium.

The cultural characteristics of Trypanosoma melophagium of sheep were studied. Aspects investigated were size of the inoculum and population growth in Modified Monophasic Medium for Trypanosomes (MMMT), population growth in Medium 199 with 10% inactivated calf serum containing 5, 10, and 15% hemolyzed defibrinated rabbit blood (199-CS-5, 199--CS-10, 199-CS-15) at 27 degrees C, effects on population growth of temperature and hydrogen ion concentration in MMMT, and morphology and morphometrics of the developmental stages found under different experimental conditions. The best growth occurred in medium MMMT at 30 degrees, C, pH 7.25. Temperature seemed to be a critical factor for differentiation of epimastigotes to trypomastigotes. Statistically significant differences were found between the trypomastigotes in MMMT and 199--cs-5 at 37 degrees C on day 4 of incubation for the following measurements: PK (distance from posterior end to kinetoplast), KN (from kinetoplast to middle of nucleus), PN (from posterior end to middle of nucleus), and nuclear and kinetoplastic indices. The trypomastigotes formed in both media were much smaller in size than the blood forms reported by Hoare (1972).     

Development and proliferation of Trypanosoma musculi in the presence of adherent splenic cells

The development and proliferation of Trypanosoma musculi parasites were studied in vitro in the presence of adherent splenic cells. The parasites grew and proliferated only when attached by their flagellar tips to adherent splenic cells. Analyses of excretory-secretory products of the adherent cells-parasites did not indicate any detectable soluble growth factor that might be responsible for the growth of these trypanosomes. During the proliferation, the kinetoplast migrated toward the nucleus, and once in the vicinity of the nucleus, nuclear division was triggered. The nucleus and kinetoplast divided at the same time Trypanosoma musculi parasites started dividing from their flagellar ends, and daughter cells were formed within 48 hr. In the absence of adherent splenic cells in vitro, the parasites were transformed into round nonviable forms.     

A review of the trypanosomes from lizards of the family Iguanidae (sensu lato), including the descriptions of five new species, and an evaluation of the effect of host difference upon taxonomic characters of saurian trypanosomes

Five new species of Trypanosoma are described from iguanid lizards. In Texas, T. poinsetti n. sp. occurs in Sceloporus poinsetti and T. urosauri n. sp. in Urosaurus graciosus. Average dimensions of T. poinsetti are body length (BL) 35.7 × maximum width (MW) 10.7 µm, nucleus length (NL) 4.3 µm, position of kinetoplast (K%) 70.6, position of nucleus (N%) 61.9, ratio of BL: MW (SI) 3.4, and ratio (NI) of NL to nucleus width (NW) 1.5. In T. urosauri average dimensions are BL 34.3 × MW 6.3 µm, NL 2.4 µm, K% 57.5, N% 66.2, SI 5.6, and NI 1.3. Trypanosomes with small compact nuclei that parasitise four Anolis species from Belize to Panama are assigned to T. anolisi n. sp. Average dimensions from the type sample in Anolis limifrons of Panama are BL 24.6 × MW 17.9 µm, NL 2.1 µm, K% 82.0, N% 78.4, SI 1.6 and NI 1.1. T. fairchildi n. sp., from Anolis capito of Panama, is a large, tongue- or leaf-shaped flagellate with BL 49.2 × MW 28.8 µm, NL 2.0 µm, K% 75.6, N% 64.5, NL 2.0, SI 1.9 and NI 1.6. Dimensions of T. plicaplicae n. sp., from Plica plica of Guyana, average BL 30.9 × MW 19.9 µm, NL 7.2 µm, K% 75.8, N% 56.2, SI 1.6 and NI 2.3. In the United States, T. scelopori parasitises Sceloporus occidentalis and Crotaphytus collaris in California. Trypanosomes with an elongate slender nucleus found in lizards of the genera Sceloporus and Corytophanes from Veracruz, Mexico to Panama, and in Anolis probably as far as Peru, are all considered to be T. serveti. Other species may be present, but cannot be separated on the basis of consistent morphometric characters. Two additional species are known from endemic South American saurian genera: T. plicae occurs in Plica umbra and T. superciliosae in Uranoscodon superciliosa of Brazil. T. domerguei is known from the Madagascan iguanid, Oplurus sebae. Only T. scincorum of southeast Asian skinks lacks host effect upon morphological characters throughout its range. Samples from two hosts each of T. anolisi in Panama and T. uluguruense in Tanzania differed in only two of 10 characters analysed, suggesting little host effect. Other comparisons of iguanid and gekkonid trypanosomes suggested that differences in parasite strain rather than host might contribute to observed variation.     

Cytochemical study of nucleic acids in relation to the polymorphism of the trypomastigote forms of Trypanosoma cruzi

Four morphological types of T. cruzi trypomastigotes are distinguished in mouse blood. These differ in RNA contents, in the distribution pattern of RNA in the cytoplasm, in the intensity of the Feulgen reaction and the topography of DNA in the nucleus, and in the contents and distribution of both the nucleic acids in the kinetoplast. Among the trypomastigotes examined, forms C and S differ at a lesser degree, than their slender and middle variants differing much stronger. The early slender trypomastigotes are characterized by poor and diffuse RNA in the cytoplasm, by a homogeneous distribution of DNA in the nucleus and by a low content of DNA (sometimes RNA) in the kinetoplast. The middle trypomastigotes, dominating at the final step of the infection, are rich in granular RNA, differ (despite their inability to divide) in their nuclear organization mostly characterized by a large karyosome and uneven distribution of chromatin at the periphery; the kinetoplast is rich in DNA and often contains RNA. The peak of trypomastigotes with the kinetoplast deprived of obviously stained RNA precedes the impetuous increase of parasitemia. It coincides with the decrease in the number of destroyed parasites, and with the active substitution of slender variants by the middle ones within both C- and S-forms. Thus, changes in the nucleus and kinetoplast are involved in the trypomastigote transformation and in the development of infection.     

Hemoflagellates of Oregon marine fishes with the description of new species of Trypanosoma and Trypanoplasma

Of 2,122 marine fishes representing 36 species collected in the northeastern Pacific Ocean in the vicinity of Newport, Oregon from 1971 to 1973, 541 individuals (25.5%) representing 8 species (22.2%) were infected with hemoflagellates. Four morphologically distinct trypanosomes and 3 distinct trypanoplasms were found in fishes collected offshore, but no hemoflagellates were observed in fishes from Yaquina Bay estuary. Trypanosoma pacifica was found in English sole Parophrys vetulus, Pacific sanddab Citharichthys sordidus, and slender sole Lyopsetta exilis, and survived in 5 other species after intraperitoneal injection. Trypanosoma gargantua was found in big skate Raja binoculata, and the leech Orientobdella confluens was able to transmit the trypanosome in experimental conditions. Trypanosoma khani n. sp. occurred in P. vetulus, petrale sole Eopsetta jordani, and Dover sole Microstomus pacificus. Trypanosoma murmanense was found in L. exilis collected from 200 m, but not in L. exilis collected from 80 m. Trypanoplasma beckeri parasitized the cabezon Scorpaenichthys marmoratus. Trypanoplasma bobolsoni n. sp. was found in E. jordani, L. exilis, and P. vetulus, and survived in 2 other species after intraperitoneal injection. A distinct, but unnamed trypanoplasm, was found in P. vetulus.     

Trypanosoma kansasensis sp. n. from Neotoma floridana in Kansas

Trypanosoma kansasensis sp. n. (Sarcomastigophora: Kinetoplastida) is described from three of 23 (13%) eastern woodrats (Neotoma floridana) collected from Pottawatomie County, Kansas (USA). All flagellates found in the blood of woodrats were trypomastigotes and are larger than T. neotomae in overall dimensions, especially flagellar length and the distance between the posterior end of the organism and kinetoplast. Liver infusion-tryptose (LIT) cultures of infected whole blood resulted in the transformation of some parasites into epimastigotes; however, there was no apparent increase in parasite numbers.     

Trypanosoma brucei Polo-like kinase is essential for basal body duplication, kDNA segregation and cytokinesis

Polo-like kinases (PLKs) are conserved eukaryotic cell cycle regulators, which play multiple roles, particularly during mitosis. The function of Trypanosoma brucei PLK was investigated in procyclic and bloodstream-form parasites. In procyclic trypanosomes, RNA interference (RNAi) of PLK, or overexpression of TY1-epitope-tagged PLK (PLKty), but not overexpression of a kinase-dead variant, resulted in the accumulation of cells that had divided their nucleus but not their kinetoplast (2N1K cells). Analysis of basal bodies and flagella in these cells suggested the defect in kinetoplast division arose because of an inhibition of basal body duplication, which occurred when PLK expression levels were altered. Additionally, a defect in kDNA replication was observed in the 2N1K cells. However, the 2N1K cells obtained by each approach were not equivalent. Following PLK depletion, the single kinetoplast was predominantly located between the two divided nuclei, while in cells overexpressing PLKty, the kinetoplast was mainly found at the posterior end of the cell, suggesting a role for PLK kinase activity in basal body and kinetoplast migration. PLK RNAi in bloodstream trypanosomes also delayed kinetoplast division, and was further observed to inhibit furrow ingression during cytokinesis. Notably, no additional roles were detected for trypanosome PLK in mitosis, setting this protein kinase apart from its counterparts in other eukaryotes.     

Prevalence and molecular phylogenetic characterization of Trypanosoma (Megatrypanum) minasense in the peripheral blood of small neotropical primates after a quarantine period

Neotropical primates of the Cebidae and Callitrichidae, in their natural habitats, are frequently infected with a variety of trypanosomes including Trypanosoma cruzi, which causes a serious zoonosis, Chagas' disease. The state of trypanosome infection after a 30-day quarantine period was assessed in 85 squirrel monkeys (Saimiri sciureus) and 15 red-handed tamarins (Saguinus midas), that were wild-caught and exported to Japan as companion animals or laboratory animals, for biomedical research, respectively. In addition to many microfilariae of Mansonella (Tetrapetalonema) mariae at a prevalence of 25.9%, and Dipetalonema caudispina at a prevalence of 3.5%, a few trypomastigotes of Trypanosoma (Megatrypanum) minasense were detected in Giemsa-stained thin films of blood from 20 squirrel monkeys at a prevalence of 23.5%. Although few T. minasense trypomastigotes were found in Giemsa-stained blood films from tamarins, a buffy-coat examination detected trypanosomes in 12 red-handed tamarins (80.0%), and PCR amplification of a highly variable region of the small subunit ribosomal RNA genes (SSU rDNA) for Trypanosoma spp. detected the infection in 14 of the 15 tamarins (93.3%). Nucleotide sequences of the amplicons were identical for trypanosomes from tamarins and squirrel monkeys, indicating a high prevalence but low parasitemia of T. minasense in imported Neotropical nonhuman primates. Based on the SSU rDNA and 5.8S rDNA, the molecular phylogenetic characterization of T. minasense indicated that T. minasense is closely related to trypanosomes with Trypanosoma theileri-like morphology and is distinct from Trypanosoma (Tejeraia) rangeli, as well as from T. cruzi. Using some blood samples from these monkeys, amplification and subsequent sequencing of the glycosomal glyceraldehyde-3-phosphate dehydrogenase (gGAPDH) gene fragments detected 4 trypanosome genotypes, including 2 types of T. cruzi clade, 1 type of T. rangeli clade, and 1 T. rangeli-related type, but failed to indicate its phylogenetic position based on the gGAPDH gene. Furthermore, species ordinarily classified in the Megatrypanum by morphological criteria do not form a clade in any molecular phylogenetic trees based on rDNA or gGAPDH genes.     

Phosphatidylinositol-specific phospholipase C (PI-PLC) cleavage of GPI-anchored surface molecules of Trypanosoma cruzi triggers in vitro morphological reorganization of trypomastigotes

Trypanosoma cruzi trypomastigotes treated with phosphatidylinositol-specific phospholipase C (PI-PLC) in vitro are rapidly induced to differentiate into round forms. Using confocal microscopy, we were able to show that trypomastigotes treated with PI-PLC initiate the process of flagellum remodeling by 30 sec after contact with the enzyme and amastigote-like forms are detected as early as 10 min after PI-PLC treatment. Scanning and transmission electron microscopy indicate that trypomastigotes undergo a previously undescribed process of flagellum circularization and internalization. Analysis of the flagellar complex with monoclonal antibody 4D9 shows heterogeneous labeling among the parasites, suggesting a remodeling of these molecules. After PI-PLC treatment, parasites rapidly lose the surface marker Ssp-3 and 24 h post-treatment they begin to exhibit a circular nucleus and a rod-shaped kinetoplast. By flow cytometry analysis and confocal microscopy, the Ssp-4 amastigote-specific epitope can be detected on the parasite surface. This indicates that the release of trypomastigote GPI-anchored molecules by exogenous PI-PLC in vitro can trigger morphological changes.     

Expression and subcellular localization of kinetoplast-associated proteins in the different developmental stages of Trypanosoma cruzi

Background  

The kinetoplast DNA (kDNA) of trypanosomatids consists of an unusual arrangement of circular molecules catenated into a single network. The diameter of the isolated kDNA network is similar to that of the entire cell. However, within the kinetoplast matrix, the kDNA is highly condensed. Studies in Crithidia fasciculata showed that kinetoplast-associated proteins (KAPs) are capable of condensing the kDNA network. However, little is known about the KAPs of Trypanosoma cruzi, a parasitic protozoon that shows distinct patterns of kDNA condensation during their complex morphogenetic development. In epimastigotes and amastigotes (replicating forms) the kDNA fibers are tightly packed into a disk-shaped kinetoplast, whereas trypomastigotes (non-replicating) present a more relaxed kDNA organization contained within a rounded structure. It is still unclear how the compact kinetoplast disk of epimastigotes is converted into a globular structure in the infective trypomastigotes.