Your search keyword '"Canning EU"' showing total 106 results

1. Mosquito (Diptera: Culicidae) host compatibility and vector competency for the human myositic parasite Trachipleistophora hominis (Phylum Microspora)

Author

Canning Eu, Weidner E, Rutledge Cr, and C. L. Meek

Subjects

Guinea Pigs, Mice, Nude, Mice, parasitic diseases, Anopheles, Microsporidiosis, Parasite hosting, Animals, Humans, Infectivity, Larva, Mice, Inbred BALB C, General Veterinary, biology, Myositis, Inoculation, Microsporida, fungi, biology.organism_classification, Virology, Culex quinquefasciatus, Spore, Insect Vectors, Culex, Disease Models, Animal, Infectious Diseases, Insect Science, Microsporidia, Protozoa, Parasitology, Female

Abstract

Microsporidian spores of Trachipleistophora hominis Hollister, isolated from a human, readily infected larval stages of both Anopheles quadrimaculatus Say sensu lato and Culex quinque-fasciatus Say. Mosquito infections with T. hominis were located, primarily, in abdominal muscles in segment numbers 4 through 6; other spores were found in the hemocoel and proboscis. Nearly 50% of the infected mosquito larvae survived to the adult stage. Spores recovered from adult mosquitoes were inoculated into mice and resulted in significant muscle infection at the site of injection. Preliminary observations also showed that T. hominis spores can be passively transferred from infected mosquitoes to a sugar water substrate.

Published

1999

2. Induction of proliferative kidney disease (PKD) in rainbow trout Oncorhynchus mykiss via the bryozoan Fredericella sultana infected with Tetracapsula bryosalmonae

Author

Feist, SW, primary, Longshaw, M, additional, Canning, EU, additional, and Okamura, B, additional

Published

2001

3. Use of Light Microscopy to Diagnose Small-Intestinal Microsporidiosis in Patients with AIDS

Author

Rijpstra Ac, Van Ketel Rj, Laarman Jj, Canning Eu, and Eeftinck Schattenkerk Jk

Subjects

Diarrhea, Acquired Immunodeficiency Syndrome, Microscopy, Pathology, medicine.medical_specialty, Protozoan Infections, Duodenum, Endoscopy, Opportunistic Infections, Biology, Microsporidiosis, medicine.disease, Microscopy, Electron, Jejunum, Infectious Diseases, Intestinal microsporidiosis, Acquired immunodeficiency syndrome (AIDS), medicine, Animals, Humans, Immunology and Allergy, In patient, Protozoal disease, Apicomplexa

Published

1988

4. Myositis due to the microsporidian Anncaliia (Brachiola) algerae in a lung transplant recipient.

Author

Field AS, Paik JY, Stark D, Qiu MR, Morey A, Plit ML, Canning EU, and Glanville AR

Subjects

Fatal Outcome, Humans, Male, Microscopy, Electron, Transmission, Microsporidiosis complications, Middle Aged, Polymerase Chain Reaction, Lung Transplantation adverse effects, Microsporidia isolation & purification, Microsporidiosis microbiology, Myositis microbiology

Abstract

Microsporidia are obligate intracellular parasites, more closely related to fungi than protozoa on molecular phylogenetic analysis, and are known to be a rare cause of opportunistic infection in immune compromised patients including human immunodeficiency virus-positive patients and solid organ transplant recipients. We report the first case to our knowledge of microsporidial myositis in a lung transplant recipient. He was 49 years old and had received a lung transplant in 2000 for cystic fibrosis. He presented in 2009 with fevers, chronic diarrhea, myalgia, and pancytopenia, and developed progressive weakness and neurological symptoms before his death 35 days after hospital admission. Multiple investigations, including stool culture, rectal biopsy, colonoscopy, cerebrospinal fluid examination, bone marrow biopsy, lung biopsy, and bronchoalveolar lavage, failed to reveal a definite cause for the patient's deterioration. The diagnosis of microsporidial infection was made on post-mortem light microscopic examination of tissue sections of the tongue and deltoid muscle. Light microscopy diagnosed a microsporidial myositis, confirmed by transmission electron microscopy, which suggested that the organism was Brachiola species. The identity of the organism was confirmed by polymerase chain reaction as Brachiola algerae (recently renamed Anncaliia algerae). The case highlights the need to consider protozoal organisms in the differential diagnosis of myalgia and multisystemic infections in immune compromised patients., (© 2012 John Wiley & Sons A/S.)

Published

2012

5. Early development of the myxozoan Buddenbrockia plumatellae in the bryozoans Hyalinella punctata and Plumatella fungosa, with comments on taxonomy and systematics of the Myxozoa.

Author

Canning EU, Curry A, and Okamura B

Subjects

Animals, Bryozoa classification, Bryozoa parasitology, Host-Parasite Interactions, Meiosis, Microscopy, Electron, Transmission, Myxozoa classification, Myxozoa growth & development, Bryozoa ultrastructure, Myxozoa ultrastructure

Abstract

We undertook a detailed ultrastructural investigation to gain insight into the early stages of development of the vermiform myxozoan, Buddenbrockia plumnatellae Schröder, 1910 in two bryozoan hosts. Early cell complexes arise in the peritoneum after division and migration of isolated cells in the host body wall. The development of cell junctions linking the outer (mural) cells of the complex then produces a sac enclosing a mass of inner cells. Elongation to the vermiform stage (myxoworm) occurs during multiplication and reorganisation of the inner cells as a central core within the single-layered sac wall. The core cells develop into muscle and sporogonic cells separated from the mural cells by a basal lamina. Myogenesis occurs along the length of the myxoworm from cells that differentiate from the central core, and is independent of elongation. Four primary sporogonic cells maintain positions close to the basal lamina, between muscle cells, while giving rise to secondary sporogonic cells that eventually become free in the central cavity. At least some secondary sporogonic cells undergo meiosis. In view of the recent confirmation of the phylogenetic affinity of Buddenbrockia with the Cnidaria, we postulate how features observed in Buddenbrockia may be homologous with cnidarian structures. Finally we propose a new family name, Buddenbrockiidae, to replace Saccosporidae which was proposed previously in breach of the International Code of Zoological Nomenclature.

Published

2008

6. A case of bilateral microsporidial keratitis from Bangladesh--infection by an insect parasite from the genus Nosema.

Author

Curry A, Mudhar HS, Dewan S, Canning EU, and Wagner BE

Subjects

Animals, Bangladesh, Humans, Insecta microbiology, Male, Keratitis microbiology, Microsporidiosis complications, Nosema isolation & purification

Abstract

An HIV-negative patient from Bangladesh with bilateral keratitis was found to be infected with a microsporidian parasite belonging to the genus Nosema. Significantly, the patient had bathed in a rural pond 7 days prior to the development of ocular symptoms. Nosema parasites are common insect parasites and the source of this microsporidial infection was possibly from mosquito larvae developing in the pond in which the patient bathed. The reduced temperature of the human eye and its immune status may have allowed a poikilothermic insect parasite to establish infection in the cornea of a homeothermic human host. This case highlights the opportunistic potential of insect microsporidial parasites to infect immunocompetent humans as well as those who are immunodeficient.

Published

2007

7. Ultrastructure of Buddenbrockia allmani n. sp. (Myxozoa, Malacosporea), a parasite of Lophopus crystallinus (Bryozoa, Phylactolaemata).

Author

Canning EU, Curry A, Hill SL, and Okamura B

Subjects

Animals, Eukaryota classification, Eukaryota physiology, Meiosis, Microscopy, Electron, Transmission, Mitosis, Morphogenesis, Spores, Protozoan ultrastructure, Bryozoa parasitology, Eukaryota ultrastructure

Abstract

Development of a new species of malacosporean myxozoan (Buddenbrockia allmani n. sp.) in the bryozoan Lophopus crystallinus is described. Early stages, represented by isolated cells or small groups, were observed in the host's body wall or body cavity. Multiplication and rearrangement of cells gave an outer cell layer around a central mass. The outer cells made contact by filopodia and established adherens junctions. Sporoplasmosomes were a notable feature of early stages, but these were lost in subsequent development. Typical malacosporean sacs were formed from these groups by attachment of the inner (luminal) cells by a basal lamina to the outer layer (mural cells). Division of luminal cells gave rise to a population of cells that was liberated into the lumen of the sac. Mitotic spindles in open mitosis and prophase stages of meiosis were observed in luminal cells. Centrioles were absent. Detached luminal cells assembled to form spores with four polar capsules and several valve cells surrounding two sporoplasms with secondary cells. Restoration of sporoplasmosomes occurred in primary sporoplasms. A second type of sac was observed with highly irregular mural cells and stellate luminal cells. A radially striated layer and dense granules in the polar capsule wall, and previous data on 18 rDNA sequences enabled assignment of the species to the genus Buddenbrockia, while specific diagnosis relied on the rDNA data and on sac shape and size.

Published

2007

8. Microgemma vivaresi (Microsporidia: Tetramicridae): host reaction to xenomas induced in sea scorpions, Taurulus bubalis (Osteichthyes: Cottidae).

Author

Canning EU and Curry A

Subjects

Animals, Apansporoblastina ultrastructure, England, Fibroblasts microbiology, Fish Diseases immunology, Host-Parasite Interactions, Liver microbiology, Microscopy, Electron, Microsporidiosis immunology, Microsporidiosis pathology, Muscle, Skeletal microbiology, Phagocytosis immunology, Apansporoblastina growth & development, Fish Diseases microbiology, Fish Diseases pathology, Fishes, Giant Cells microbiology, Life Cycle Stages physiology, Microsporidiosis veterinary

Abstract

Xenomas caused by Microgemma vivaresi Canning, Feist, Longshaw, Okamura, Anderson, Tsuey Tse et Curry, 2005 were found in liver and skeletal muscle of sea scorpions, Taurulus bubalis (Euphrasen). All muscle xenomas examined were in an advanced stage of destruction. In developing xenomas found in liver, parasites were restricted to the centre of the cell, separated from a parasite-free zone by a nuclear network formed by branching of the host cell nucleus. Although xenomas were able to reach a size of several hundred microns, the surface remained a simple plasma membrane. Host reactions took the form of penetration by phagocytes and isolation by fibroblasts. Once the xenoma had been attacked, the nuclear profiles became pycnotic and the barrier between parasitized and parasite-free zones was lost. Parasite antigens cannot be exposed at the surface of intact xenomas, as the host does not recognise the enlarging cell as foreign. Breaches in the plasma membrane of the xenoma and leakage of parasite antigens are thought to be the stimuli for phagocyte entry into the cell, its isolation by fibroblasts and eventual granuloma formation.

Published

2005

9. Microgemma vivaresi n. sp. (Microsporidia, Tetramicridae), infecting liver and skeletal muscle of sea scorpions, Taurulus bubalis (Euphrasen 1786) (Osteichthyes, Cottidae), an inshore, littoral fish.

Author

Canning EU, Feist SW, Longshaw M, Okamura B, Anderson CL, Tse MT, and Curry A

Subjects

Animals, Microscopy, Electron, Microsporidia classification, Microsporidia genetics, Microsporidia ultrastructure, Microsporidiosis parasitology, Molecular Sequence Data, Sequence Analysis, DNA, Spores, Protozoan ultrastructure, Fish Diseases parasitology, Fishes parasitology, Liver parasitology, Microsporidia pathogenicity, Microsporidiosis veterinary, Muscle, Skeletal parasitology

Abstract

The ultrastructure of a new microsporidian species Microgemma vivaresi n. sp. causing liver cell xenoma formation in sea scorpions, Taurulus bubalis, is described. Stages of merogony, sporogony, and sporogenesis are mixed in the central cytoplasm of developing xenomas. All stages have unpaired nuclei. Uninucleate and multinucleate meronts lie within vacuoles formed from host endoplasmic reticulum and divide by binary or multiple fission. Sporonts, no longer in vacuoles, deposit plaques of surface coat on the plasma membrane that cause the surface to pucker. Division occurs at the puckered stage into sporoblast mother cells, on which plaques join up to complete the surface coat. A final binary fission gives rise to sporoblasts. A dense globule, thought to be involved in polar tube synthesis, is gradually dispersed during spore maturation. Spores are broadly ovoid, have a large posterior vacuole, and measure 3.6 microm x 2.1 microm (fresh). The polar tube has a short wide anterior section that constricts abruptly, then runs posteriad to coil about eight times around the posterior vacuole with granular contents. The polaroplast has up to 40 membranes arranged in pairs mostly attached to the wide region of the polar tube and directed posteriorly around a cytoplasm of a coarsely granular appearance. The species is placed alongside the type species Microgemma hepaticusRalphs and Matthews 1986 within the family Tetramicridae, which is transferred from the class Dihaplophasea to the class Haplophasea, as there is no evidence for the occurrence of a diplokaryotic phase.

Published

2005

10. Further observations on the ultrastructure of Cystosporogenes operophterae (Canning, 1960) (phylum Microsporidia) parasitic in Operophtera brumata L. (Lepidoptera, Geometridae).

Author

Canning EU and Curry A

Subjects

Animals, Membranes ultrastructure, Microscopy, Electron, Transmission, Microsporidia physiology, Phylogeny, Spores, Protozoan, Vacuoles ultrastructure, Host-Parasite Interactions physiology, Lepidoptera parasitology, Microsporidia ultrastructure

Abstract

Reinvestigation of Cystosporogenes operophterae [J. Parasitol. 46 (1960) 755] by electron microscopy confirmed that development in host cells takes place in a vacuole with a single membrane at its boundary. Although ribosomes were not clustered on this membrane, it is hypothesised that it originates from host endoplasmic reticulum. The dome-shaped anchoring disc, the morphology of the polaroplast and the separation of the polar tube coils from the ribosome-packed cytoplasm are newly described details of spore structure. The polaroplast consists of an outer region of compact lamellae forming 'arms' surrounding an inner region of widely spaced lamellae. The 'arms' extends back into the region of an elongate nucleus. The genera Cystosporogenes and Endoreticulatus were differentiated by their positions in a previously obtained 16S rDNA phylogeny and on the new ultrastructural data.

Published

2004

11. Experimental infection of severe combined immunodeficient (SCID) mice with the human microsporidian Trachipleistophora hominis.

Author

Koudela B, Vávra J, and Canning EU

Subjects

Animals, Female, Humans, Immunocompromised Host, Liver parasitology, Male, Mice, Mice, SCID, Microscopy, Electron, Microsporidia ultrastructure, Microsporidiosis pathology, Muscle, Skeletal parasitology, Spleen parasitology, Disease Models, Animal, Microsporidia growth & development, Microsporidiosis parasitology, Opportunistic Infections parasitology

Abstract

Different courses of microsporidiosis, related to the route of infection, were observed in severe combined immunodeficient (SCID) mice inoculated with spores of the human microsporidian Trachipleistophora hominis (Phylum Microspora). After eye contamination by spores the mice became moribund within 7 to 8 weeks, showing severe infection in the conjunctiva and cornea, and lighter infections in the urinary bladder, liver and spleen. The mean survival time of intramuscularly inoculated SCID mice was 12 weeks, when heavy infection was found in muscles around the site of inoculation, and also in several viscera. Subcutaneously inoculated SCID mice developed skin lesions around the inoculation sites, and heavy urinary bladder infection, and died 6 or 7 weeks after inoculation. Intracerebrally inoculated SCID mice became moribund 5 or 6 weeks after inoculation with massive infection in the urinary bladder and liver, but none in the brain. Intraperitoneally inoculated SCID mice survived for 13 weeks and the urinary bladder and liver were the most heavily infected organs. The SCID mice, inoculated perorally and examined after 23 weeks, were uninfected. Infection was not detected in the brain of any of the inoculated SCID mice. Our results show that T. hominis has very little tissue specificity. Peroral infection seems to be ineffective in T. hominis, but eye conta mination or insect bite (as mimicked by injection) are suggested as possible routes of infection under natural conditions.

Published

2004

12. Biodiversity and evolution of the Myxozoa.

Author

Canning EU and Okamura B

Subjects

Animals, Biodiversity, Biological Evolution, Eukaryota physiology, Parasites physiology

Abstract

Myxozoans (phylum Myxozoa) are metazoan parasites utilizing invertebrate and (mainly) aquatic vertebrate hosts. They have in common with cnidarians the possession of virtually identical, highly complex organelles, namely the polar capsules in myxozoan spores, serving for attachment to new hosts and the nematocysts in surface epithelia of cnidarians, serving for food capture. Although myxozoan spores are multicellular, the simple trophic body forms of almost all species, reduced to syncytial plasmodia or single cells, reveal no clues to myxozoan ancestry or phylogenetic relationships. The myxozoan genus Buddenbrockia is one of only two known genera belonging to a clade which diverged early in the evolution of the Myxozoa. Today the Myxozoa are represented by two classes, the Myxosporea, containing all the better-known genera, which alternate between fish and annelids, and the Malacosporea, containing Buddenbrockia and Tetracapsuloides, parasitising bryozoans. The latter genus also infects salmonid fish, causing proliferative kidney disease (PKD). The enigmatic Buddenbrockia has retained some of its ancestral features in a body wall of two cell layers and a worm-like shape, maintained by four longitudinally-running muscle blocks, similar to a gutless nematode and suggestive of a bilaterian ancestry. Although some analyses of 18S rDNA sequences tend towards a cnidarian (diploblast) affinity for myxozoans, the majority of these studies place them within, or sister to, the Bilateria. The latter view is supported by their possession of central class Hox genes, so far considered to be synapomorphic for Bilateria. The simple body form is, therefore, an extreme example of simplification due to parasitism. Various hypotheses for the occurrence of identical complex organelles (nematocysts and polar capsules) in diploblast and triploblast phyla are evaluated: common ancestry, convergent evolution, gene transfer and, especially, endosymbiosis. A theory of the evolution of their digenetic life cycles is proposed, with the invertebrate as primary host and secondary acquisition of the vertebrate host serving for asexual population increase.

Published

2004

13. Ecology, development and pathogenicity of Buddenbrockia plumatellae Schröder, 1910 (Myxozoa, Malacosporea) (syn. Tetracapsula bryozoides) and establishment of Tetracapsuloides n. gen. for Tetracapsula bryosalmonae.

Author

Canning EU, Tops S, Curry A, Wood TS, and Okamura B

Subjects

Animals, Bryozoa classification, Fresh Water parasitology, Lotus parasitology, Microscopy, Electron, Morphogenesis, Prevalence, Bryozoa parasitology, Ecosystem, Eukaryota classification, Eukaryota growth & development, Eukaryota pathogenicity, Eukaryota physiology

Abstract

Buddenbrockia plumatellae, an enigmatic worm-like myxozoan, was observed as continuously writhing free and attached 'worms' and as free mature spores in the coelom of the freshwater bryozoans Plumatella fungosa, Hyalinella punctata, and Fredericella sp. 'Worm' numbers could double every three days. 'Worms' and spores could be expelled from colonies by external pressure. Some mature 'worms' exited actively, entraining release of free spores, and gradually ceased movement outside the host. Bryozoans sealed off infected regions of the colony. Infected colonies grew slowly, produced no statoblasts, and eventually regressed and died. Transmission was not achieved and prevalence was low. Electron microscopy of 'worms' revealed a single layer of mural cells on a fibrous basal lamina overlying four longitudinal muscle blocks and an inner sheet of two types of proliferating cells, an organization indicative of the bilaterian ancestry of the Myxozoa. Primary type A cells were attached directly by striated tubules to mural cells at positions between muscle blocks. Secondary type A cells had a secretory function. Type B cells underwent meiosis and subsequently developed to typical malacosporean myxozoan spores filling the internal cavity of the 'worms'. External tubes were formed during capsulogenesis in 'worms' from Fredericella sp. Tetracapsula bryozoides is synonymised with Buddenbrockia plumatellae and a new genus is proposed for Tetracapsula bryosalmonae.

Published

2002

14. Small subunit ribosomal DNA phylogeny of microsporidia that infect Daphnia (Crustacea: Cladocera).

Author

Refardt D, Canning EU, Mathis A, Cheney SA, Lafranchi-Tristem NJ, and Ebert D

Subjects

Animals, Base Sequence, Microsporidia isolation & purification, Phylogeny, Polymerase Chain Reaction, Crustacea parasitology, DNA, Protozoan genetics, DNA, Ribosomal genetics, Microsporidia classification, Microsporidia genetics

Abstract

Glugoides intestinalis, Microsporidium sp., Ordospora colligata, Gurleya vavrai, Larssonia obtusa and Flabelliforma magnivora are microsporidian parasites of planctonic freshwater crustaceans Daphnia spp. We performed a phylogenetic analysis of the small subunit ribosomal DNA which revealed their positions as polyphyletic. G. intestinalis, Microsporidium sp. and O. colligata, which are horizontally transmitted gut parasites with small spores and low virulence, group with different lineages. G. intestinalis is related to 2 microsporidia infecting lepidopterans and to Vittaforma corneae, which has been described as a human pathogen. It is thought that V. corneae may have an invertebrate as its natural host. Microsporidium sp. is a relative of the genera Enterocytozoon and Nucleospora, pathogens of man and fish respectively. O. colligata is the first species found to be closely related to the genus Encephalitozoon, which is comprised of 3 species that are parasites of homeothermic vertebrates. G. vavrai and L. obtusa are sister taxa that branch close to the Amblyosporidae, the only microsporidia with known intermediate hosts. This finding supports the presumption of secondary hosts for G. vavrai and L. obtusa, as it has not been possible to maintain these species in Daphnia in the laboratory. F. magnivora roots deep at the base of the phylum microsporidia with no close relative found so far.

Published

2002

15. Ultrastructure of Buddenbrockia identifies it as a myxozoan and verifies the bilaterian origin of the Myxozoa.

Author

Okamura B, Curry A, Wood TS, and Canning EU

Subjects

Animals, Biological Evolution, Eukaryota ultrastructure, Microscopy, Electron, Bryozoa parasitology, Eukaryota classification

Abstract

The phylogenetic affinities of Buddenbrockia, a nematode-like parasite of freshwater bryozoans, have remained unknown since it was first reported in the nineteenth century. The discovery of Buddenbrockia parasitic in Hyalinella punctata in Ohio and Plumatella repens in France has provided material for the first ultrastructural study of this animal. This has revealed the presence of polar capsules, diagnostic myxozoan features, in the body wall. Other features, which place Buddenbrockia firmly among tetracapsulid myxozoans in the Class Malacosporea, are the unusual morphology of the polar capsules, the absence of the external tube in capsulogenesis, the body wall with its unusual cell junctions and utilization of freshwater bryozoans as hosts. The ultrastructural study has established the triploblastic organization of Buddenbrockia by confirmation of the presence of an inner layer of cells and 4 sets of longitudinal muscles. Our studies have, thus, simultaneously revealed that Buddenbrockia is a myxozoan and that the myxozoans are derived from bilaterians. The latter conclusion resolves the ongoing controversy over the triploblastic versus diploblastic nature of the Myxozoa. Our studies also provide evidence that bryozoans are ancestral hosts for the myxozoans and that loss of triploblast features has characterized the major radiation of the better known endoparasites of fish and worms in the Class Myxosporea.

Published

2002

16. Serological differentiation of microsporidia with special reference to Trachipleistophora hominis.

Author

Cheney SA, Lafranchi-Tristem NJ, and Canning EU

Subjects

AIDS-Related Opportunistic Infections complications, Animals, Antigens, Protozoan analysis, Blotting, Western, Electrophoresis, Polyacrylamide Gel, Enzyme-Linked Immunosorbent Assay, Humans, Microsporidia isolation & purification, Molecular Weight, Myositis complications, Serotyping methods, AIDS-Related Opportunistic Infections parasitology, Microsporidia classification, Microsporidiosis complications, Myositis parasitology

Abstract

Myositis is a common clinical syndrome in advanced stages of AIDS. Trachipleistophora hominis (phylum Microspora) has been detected in several cases of painful, immobilising myositis in AIDS patients. Enzyme linked immunosorbent assays (ELISAs) and Western blotting of protein profiles separated by SDS PAGE were used to determine whether this species could be detected and differentiated by serology. Sixteen microsporidia, including several species known to infect man and species infecting fish, crustaceans and a mosquito, were used as antigen. Each species had a unique profile of SDS PAGE-separated proteins. In Western blots, mouse antiserum, raised to T. hominis and selected for its high ELISA specificity, bound to antigens ranging from less than 25 kDa to greater than 250 kDa with major bands at 39-44 kDa and 98-150 kDa on T. hominis protein profiles. The serum also recognised some high molecular weight antigens in the profiles of Vavraia culicis, Heterosporis anguillarum, and three species of Pleistophora but none in the remaining genera examined. It was concluded that ELISA and Western blotting could be used to detect and differentiate T. hominis in muscle biopsy tissue from patients with myositis. However, sera from T. hominis-infected patients in the terminal stages of AIDS would not be useful for detection of infections because of a sharp decline in antibody level.

Published

2001

17. Patterns of occurrence and 18S rDNA sequence variation of PKX (Tetracapsula bryosalmonae), the causative agent of salmonid proliferative kidney disease.

Author

Okamura B, Anderson CL, Longshaw M, Feist SW, and Canning EU

Subjects

Animals, Canada epidemiology, Eukaryota genetics, Eukaryota isolation & purification, Fish Diseases epidemiology, Genetic Variation, Host-Parasite Interactions genetics, Kidney Diseases epidemiology, Kidney Diseases parasitology, Life Cycle Stages, Oncorhynchus mykiss, Prevalence, Protozoan Infections, Animal parasitology, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, United States epidemiology, Bryozoa parasitology, DNA, Ribosomal chemistry, Eukaryota classification, Fish Diseases parasitology, Kidney Diseases veterinary, Protozoan Infections, Animal epidemiology

Abstract

Recent progress in understanding the etiology of proliferative kidney disease (PKD) includes the identification of freshwater bryozoans as the natural hosts of the myxozoan parasite that causes the disease in salmonid fish and formal description of the parasite as Tetracapsula bryosalmonae. This paper presents data on patterns of occurrence of T. bryosalmonae and sequence variation among isolates. T. bryosalmonae infects bryozoans that range from primitive to more derived genera within the Phylactolaemata and that differ in growth form and habits. Infected bryozoans have been collected in diverse habitats including cold, clear streams and warm, eutrophic lakes. Temporal surveys reveal intra- and interannual variation in infection levels, and spatial variation in incidence of infection is implicit by the apparent absence of T. bryosalmonae from many bryozoan populations. The significance of minor variation in partial sequences of 18S rDNA requires further investigation. The information presented here provides the first significant insights into the ecology of T. bryosalmonae.

Published

2001

18. Relationships of microsporidian genera, with emphasis on the polysporous genera, revealed by sequences of the largest subunit of RNA polymerase II (RPB1).

Author

Cheney SA, Lafranchi-Tristem NJ, Bourges D, and Canning EU

Subjects

Animals, Fishes parasitology, Humans, Insecta parasitology, Microsporidia genetics, Microsporidiosis parasitology, Molecular Sequence Data, Phylogeny, DNA, Protozoan analysis, Microsporidia classification, Microsporidia enzymology, RNA Polymerase II genetics, Sequence Analysis, DNA

Abstract

Molecular data have proved useful as an alternative to morphological data in showing the relationships of genera within the phylum Microsporidia, but until now have been available only for ribosomal genes. In previous studies protein-coding genes of microsporidia have been used only to assess their position in the evolution of eukaryotes. For the first time we report on the use of a protein-coding gene, the A-G region of the largest subunit of RNA polymerase II (RPB1) from 14 mainly polysporous species, to generate an alternative phylogeny for microsporidia. Using the amino acid sequences, the genera and species fell into the same main groupings as had been obtained with 16S rDNA sequences, but the RPB1 data provided better resolution within these groups. The results supported the pairings of Trachipleistophora hominis with Vavraia culicis and Pleistophora hippoglossoideos with Pleistophora typicalis. They also confirmed that the genus Pleistophora is not monophyletic and that it will be necessary to transfer Pleistophora ovariae and Pleistophora mirandellae into one or more other genera, as has already been effected for Pleistophora anguillarum.

Published

2001

19. Growth of Trachipleistophora hominis (Microsporidia: Pleistophoridae) in C2,C12 mouse myoblast cells and response to treatment with albendazole.

Author

Lafranchi-Tristem NJ, Curry A, Cheney SA, and Canning EU

Subjects

Animals, Cell Differentiation, Cell Line, Mice, Microscopy, Electron, Microsporidia drug effects, Microsporidia ultrastructure, Spores drug effects, Albendazole pharmacology, Microsporidia growth & development, Muscle, Skeletal parasitology

Abstract

The microsporidium Trachipleistophora hominis Hollister, Canning, Weidner, Field, Kench et Marriott, 1996, originally isolated from human skeletal muscle cells, inhibited myotube formation from myoblasts when grown in a mouse myoblast cell line C2,C12. Uninfected cultures readily converted to myotubes. Albendazole, a drug with known antimicrosporidial activity, was tested against T. hominis in C2,C12 cells. The drug was added when infection had reached 75% of C2,C12 cells, a level comparable to that obtained in heavily infected muscle in vivo. Doses of 1 ng/ml and 10 ng/ml had no effect on merogony or sporogony. In cultures exposed to 100 ng/ml albendazole, the C2,C12 cells remained in good condition while infection levels dropped to 25% over 7 weeks. Drug doses of 500 ng/ml and 1,000 ng/ml were deleterious to the host cells but some spores retained viability and were able to establish new infections once albendazole pressure was removed. T. hominis meronts exposed to 100 ng/ml albendazole mostly lacked the normally thick surface coat and its reticulate extensions. Meronts were not seen in cultures exposed to higher drug doses. Albendazole at a concentration of 100 ng/ml and higher had a profound effect on spore morphogenesis. There was erratic coiling of the polar tube, often involving the formation of double tubes, and chaotic disposition of membranes which could have been those of polaroplast. The in vitro susceptibility of T. hominis to albendazole was low in comparison with in vitro susceptibility of other microsporidia of human origin.

Published

2001

20. A new class and order of myxozoans to accommodate parasites of bryozoans with ultrastructural observations on Tetracapsula bryosalmonae (PKX organism).

Author

Canning EU, Curry A, Feist SW, Longshaw M, and Okamura B

Subjects

Animals, Bryozoa ultrastructure, Cell Nucleus ultrastructure, Eukaryota growth & development, Eukaryota ultrastructure, Mitochondria genetics, Bryozoa parasitology, Eukaryota classification, Protozoan Infections, Animal parasitology

Abstract

Tetracapsula bryosalmonae, formerly PKX organism, is a myxozoan parasite that causes proliferative kidney disease in salmonid fish. Its primary hosts, in which it undergoes a sexual phase, are phylactolaemate bryozoans. It develops in the bryozoan coelomic cavity as freely floating sacs which contain two types of cells, stellate cells and sporoplasmogenic cells, which become organised as spores. Eight stellate cells differentiate as four capsulogenic cells and four valve cells which surround a single sporoplasmogenic cell. The sporoplasmogenic cell undergoes meiosis and cytoplasmic fission to produce two sporoplasms with haploid nuclei. Sporoplasms contain secondary cells. The unusual development supports previously obtained data from 18S rDNA sequences, indicating that species of Tetracapsula form a clade. It diverged early in the evolution of the Myxozoa, before the radiation that gave rise to the better known genera belonging to the two orders in the single class Myxosporea. The genus Tetracapsula as seen in bryozoans shares some of the characters unique to the myxosporean phase and others typical of the actinosporean phase of genera belonging to the class Myxosporea. However, it exhibits other features which are not found in either phase. A new class Malacosporea and order Malacovalvulida are proposed to accommodate the family Saccosporidae and genus Tetracapsula. Special features of the new class are the sac-like proliferative body, valve cells not covering the exit point of the polar filament, lack of a stopper-like structure sealing the exit, maintenance of valve cell integrity even at spore maturity, absence of hardened spore walls and unique structure of sporoplasmosomes in the sporoplasms.

Published

2000

21. Phylogenetic relationships of Pleistophora-like microsporidia based on small subunit ribosomal DNA sequences and implications for the source of trachipleistophora hominis infections.

Author

Cheney SA, Lafranchi-Tristem NJ, and Canning EU

Subjects

Acquired Immunodeficiency Syndrome complications, Animals, Humans, Mice, Mice, Inbred BALB C, Mice, Nude, Molecular Sequence Data, Muscle, Skeletal parasitology, Phylogeny, Polymerase Chain Reaction, Sequence Analysis, DNA, Tissue Distribution, DNA, Ribosomal genetics, Microsporida classification, Microsporidiosis etiology, RNA, Ribosomal, 16S genetics

Abstract

The microsporidian Trachipleistophora hominis was isolated in vitro from the skeletal muscle of an AIDS patient. Since its discovery several more cases of myositis due to Trachipleistophora have been diagnosed but the source of infection is unknown. Morphologically, T. hominis most closely resembles Pleistophora and Vavraia, which undergo polysporous sporogony in sporophorous vesicles, but differs from these genera in the mode of formation of sporoblasts and in the morphology of the sporophorous vesicles. Alignment and analyses of the small subunit ribosomal DNA sequences of T. hominis and several other polysporoblastic genera indicated that its closest phylogenetic relationships were with species of the genera Pleistophora and Vavraia, in line with morphological predictions. The type species of the latter two genera are Pleistophora typicalis and Vavraia culicis; these are parasites of fish and mosquitoes, respectively. These results suggest two possible routes and sources of infection to AIDS patients, these being perorally by ingestion of inadequately cooked fish or crustaceans or percutaneously during a bloodmeal taken by a haematophagous insect. Support for an insect source has been provided by recent detection of a microsporidium from mosquitoes in human corneal tissue.

Published

2000

22. Molecular data implicate bryozoans as hosts for PKX (phylum Myxozoa) and identify a clade of bryozoan parasites within the Myxozoa.

Author

Anderson CL, Canning EU, and Okamura B

Subjects

Animals, DNA, Protozoan genetics, DNA, Ribosomal genetics, Fish Diseases parasitology, Kidney parasitology, Molecular Sequence Data, Oncorhynchus mykiss parasitology, Phylogeny, Polymerase Chain Reaction, Protozoan Infections, Animal parasitology, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Bryozoa parasitology, Eukaryota classification, Eukaryota genetics

Abstract

Proliferative kidney disease (PKD), a condition associated with high mortality in salmonid fish, represents an abnormal immune response to the presence of an enigmatic myxozoan, which has been designated simply as PKX organism because its generic and specific status are obscure. Phylogenetic analyses of partial sequences of the 18S rDNA of PKX and of myxozoan parasites infecting the bryozoans Cristatella mucedo, Pectinatella magnifica and Plumatella rugosa, including the previously named Tetracapsula bryozoides from C. mucedo, showed that these taxa represent a distinct clade that diverged early in the evolution of the Myxozoa before the radiation of the other known myxozoan genera. A common feature of the myxozoans in this clade may be the electron-dense sporoplasmosomes with a lucent bar-like structure, which occur in T. bryozoides and PKX but not in the myxozoans belonging to the established orders Bivalvulida and Multivalvulida. Variation of 0.5-1.1% was found among the PKX 18S rDNA sequences obtained from fish from North America and Europe. The 18S rDNA sequence for T. bryozoides showed that it is a distinct taxon, not closely related to PKX but some sequences from myxozoans infecting 2 of the bryozoan species were so similar to those of PKX as to be indistinguishable. Other sequences from the new myxozoans in bryozoans at first appeared distinct from PKX in a maximum likelihood tree but, when analysed further, were also found to be phylogenetically indistinguishable from PKX. We propose that at least some variants of these new myxozoans from bryozoans are able to infect and multiply in salmonid fish, in which they stimulate the immune reaction and cause PKD but are unable to form mature spores to complete their development.

Published

1999

23. Ultrastructure of Myxidium trachinorum sp. nov. from the gallbladder of the lesser weever fish Echiichthys vipera.

Author

Canning EU, Curry A, Anderson CL, and Okamura B

Subjects

Animals, Eukaryota classification, Fish Diseases parasitology, Gallbladder Diseases parasitology, Gallbladder Diseases veterinary, Microscopy, Electron, Eukaryota ultrastructure, Fishes parasitology, Gallbladder parasitology, Protozoan Infections, Animal parasitology

Abstract

Myxidium trachinorum sp. nov. is described from the gallbladder of the lesser weever fish Echiichthys vipera. Pseudoplasmodia attach themselves to the gallbladder epithelium by filose processes, which are inserted between host cells. Pseudoplasmodia undergo endogenous cell formation at the secondary and tertiary levels. In the proliferative cycle, primary and endogenous cells are packed with digestive vacuoles formed by phagocytosis. In the sporogonic cycle the pseudoplasmodium becomes a pericyte enclosing two secondary cells (lacking digestive vacuoles) in a vacuole. These give rise to five cells each two valvogenic, two capsulogenic and a binucleate sporoplasm, which mature into spores. Comparison of the disporic M. trachinorum with polysporic species of Myxidium revealed significant differences in plasmodial ultrastructure, especially their attachments to host cells, surface characteristics and mode of nutrition, and in formation of generative cells. These suggest that the genus Myxidium may require revision.

Published

1999

24. Vairimorpha imperfecta n.sp., a microsporidian exhibiting an abortive octosporous sporogony in Plutella xylostella L. (Lepidoptera: Yponomeutidae).

Author

Canning EU, Curry A, Cheney S, Lafranchi-Tristem NJ, and Haque MA

Subjects

Animals, DNA Primers chemistry, DNA, Protozoan chemistry, Malaysia, Microscopy, Electron, Microspheres, Microsporida classification, Microsporida physiology, Microsporida ultrastructure, Polymerase Chain Reaction, RNA, Ribosomal chemistry, RNA, Ribosomal genetics, Spores cytology, Spores genetics, Lepidoptera parasitology, Microsporida genetics, Phylogeny

Abstract

The microsporidian genus Nosema is characterized by development in direct control with host cell cytoplasm, diplokaryotic nuclei throughout development and disporous sporogony. The genus Vairimorpha exhibits the same features plus an octoporous sporogony producing uninucleate spores in a sporophorous vesicle. A microsporidium from diamondback moth, Plutella xylostella, falls between Nosema and Vairimorpha in that it initiates but fails to complete the octosporous sequence in this host. The name Vairimorpha imperfecta n.sp. is proposed. Merogony is mainly by formation of buds from multinucleate meronts, the buds remaining attached in chains. Diplokaryotic spores measure 4.3 x 2.0 microns (fresh) and have 15.5 coils of the polar tube in 1 rank. The octosporous sporogony is aborted owing to irregular formation of nuclear spindles, incomplete cytoplasmic fission and bizarre deposition of electron-dense episporontal secretions. Phylogenetic analyses of the sequences of the small subunit rRNA genes of V. imperfecta and of several Nosema and Vairimorpha spp. place V. imperfecta in a clade with Nosema spp. from Lepidoptera rather than in the clade containing the more typical species of Vairimorpha. It is suggested that the ancestors of the Vairimorpha/Nosema complex of species exhibited both disporous and octosporous sporogonies, as does the type species of Vairimorpha, Vairimorpha necatrix. It would follow that true Nosema spp. have lost the ability to express an octosporous sequence and that V. imperfecta is in the process of losing it. It is proposed that the genera Nosema and Vairimorpha be placed in the same family Nosematidae Labbé 1899, rather than in separate families and orders as at present.

Published

1999

25. Nosema tyriae n.sp. and Nosema sp., microsporidian parasites of Cinnabar moth Tyria jacobaeae.

Author

Canning EU, Curry A, Cheney SA, Lafranchi-Tristem NJ, Kawakami Y, Hatakeyama Y, Iwano H, and Ishihara R

Subjects

Animals, Base Sequence, DNA, Protozoan, Molecular Sequence Data, Moths parasitology, Nosema genetics, Nosema ultrastructure

Abstract

Nosema tyriae n.sp. was found in 63% of a population of Cinnabar moth larvae (Tyria jacobaeae). The infection was found in the gut wall, silk glands, and fat body and was probably generalized but appeared to be of low pathogenicity. Merogony and sporogony were by binary fission of diplokaryotic stages. Fresh spores were elongate, slightly pointed at the anterior end, and measured 4.7 x 2.0 microm. Ultrastructural features of special interest were 20-nm tubules connecting the surface of sporonts with host cell cytoplasm and, in the spores, a deeply domed polar sac, polaroplast consisting of closely packed longitudinally arranged membranes and loosely packed horizontally arranged membranes, and 10.5-14 coils of the polar tube in a single rank. The 16S rRNA genes of N. tyriae and Nosema bombycis from silkworms, Bombyx mori, differed by only six nucleotides and N. tyriae spores gave a moderately positive reaction with a monoclonal antibody raised to N. bombycis. N. tyriae was infective to B. mori but was less virulent than N. bombycis. However, no amplification product was obtained by PCR using N. tyriae DNA and primers considered to be specific for N. bombycis. Also, the spores of the two species are of entirely different shapes. A second diplokaryotic microsporidium, Nosema sp., found as a light infection in only one of the larvae had much smaller developmental stages and spores measuring 3.8 x 2.0 microm (fixed). Ultrastructurally it was distinguished by an abundance of dense membranes in cytoplasmic vesicles in both meronts and sporonts. Spores with up to 15 coils of the polar tube in irregular clusters or with about 12 coils in a single rank were observed in the tissues fixed from the one larva infected with this parasite. As this larva had been kept with N. tyriae-infected larvae for a few days before examination, it is possible that the two types of spores resulted from a double infection., (Copyright 1999 Academic Press.)

Published

1999

26. Mosquito (Diptera: Culicidae) host compatibility and vector competency for the human myositic parasite Trachipleistophora hominis (Phylum Microspora).

Author

Weidner E, Canning EU, Rutledge CR, and Meek CL

Subjects

Animals, Disease Models, Animal, Female, Guinea Pigs, Humans, Mice, Mice, Inbred BALB C, Mice, Nude, Microsporidiosis parasitology, Microsporidiosis pathology, Anopheles parasitology, Culex parasitology, Insect Vectors parasitology, Microsporida, Microsporidiosis transmission, Myositis parasitology, Myositis pathology

Abstract

Microsporidian spores of Trachipleistophora hominis Hollister, isolated from a human, readily infected larval stages of both Anopheles quadrimaculatus Say sensu lato and Culex quinque-fasciatus Say. Mosquito infections with T. hominis were located, primarily, in abdominal muscles in segment numbers 4 through 6; other spores were found in the hemocoel and proboscis. Nearly 50% of the infected mosquito larvae survived to the adult stage. Spores recovered from adult mosquitoes were inoculated into mice and resulted in significant muscle infection at the site of injection. Preliminary observations also showed that T. hominis spores can be passively transferred from infected mosquitoes to a sugar water substrate.

Published

1999

27. The Case for Naming Actinosporeans using the Zoological Code.

Author

Lester RJ, Hallett SL, El-Matbouli M, and Canning EU

Published

1998

28. Dual microsporidial infection due to Vittaforma corneae and Encephalitozoon hellem in a patient with AIDS.

Author

Deplazes P, Mathis A, van Saanen M, Iten A, Keller R, Tanner I, Glauser MP, Weber R, and Canning EU

Subjects

Animals, Blotting, Western, Encephalitozoon isolation & purification, Humans, Male, Mice, Mice, Nude parasitology, Middle Aged, Protozoan Infections parasitology, AIDS-Related Opportunistic Infections parasitology, Encephalitozoonosis complications, Microsporida isolation & purification, Microsporida ultrastructure

Abstract

A 46-year-old human immunodeficiency virus-infected Swiss citizen living in Tanzania presented with respiratory, abdominal, and urogenital complaints. Microsporidial spores were isolated from urine and a sinunasal aspirate and were propagated in MRC-5 cell cultures. Western blot analysis and riboprinting identified the sinunasal isolate as Encephalitozoon hellem. Electron microscopic investigation of the urine isolate revealed spores with diplokaryotic nuclei and five to six isofilar coils of the polar tube and sporonts with two or three diplokarya. All stages were enveloped by two membranes, corresponding to a cisterna of host endoplasmic reticulum studded with ribosomes. These characteristics have been described for the genus Vittaforma. Western blot analysis of this isolate revealed a banding pattern identical to that of the Vittaforma corneae reference isolate. Part of the small subunit rRNA gene was amplified, sequenced (239 base pairs), and found to be identical to that of V. corneae. This is the second isolation of V. corneae and the first description of urinary tract infection due to V. corneae in a patient with AIDS.

Published

1998

29. Some ultrastructural data on Microsporidium ceylonensis, a cause of corneal microsporidiosis.

Author

Canning EU, Curry A, Vávra J, and Bonshek RE

Subjects

Animals, Child, Cornea pathology, Corneal Transplantation, Female, Humans, Macrophages parasitology, Male, Microscopy, Electron, Spores ultrastructure, Cornea parasitology, Eye Infections, Parasitic parasitology, Keratitis parasitology, Microsporida ultrastructure, Microsporidiosis parasitology

Abstract

Sections of corneal tissue infected with Microsporidium ceylonensis were restained or processed for electron microscopy. Confirmation was obtained that the parasite develops in macrophages and that spores are uninucleate. New information is provided that sporoblasts and spores develop synchronously within a membrane in the host cell, spores have an anisofilar polar tube of 6-10 wide coils and 2-3 narrow coils and details are given of the spore wall and internal organisation. The parasite was compared on the one hand with Encephalitozoon, which exhibits asynchronous intravacuolar development of merogonic and sporogonic stages and has spores with isofilar polar tubes and on the other hand with species reported from mammals, of which the sporogonic stages develop synchronously within sporophorous vesicles and the spores have anisofilar polar tubes. Even so, a generic emplacement could not be established. Attention is drawn to the similarities between M. ceylonensis and Nosema sp. described from the cornea of a woman in Botswana.

Published

1998

30. A triploblast origin for Myxozoa?

Author

Anderson CL, Canning EU, and Okamura B

Subjects

Amino Acid Sequence, Animals, Cnidaria classification, Cnidaria genetics, Evolution, Molecular, Genes, Fungal, Molecular Sequence Data, Phylogeny, Sequence Homology, Amino Acid, Genes, Homeobox, Myxomycetes classification, Myxomycetes genetics

Published

1998

31. In vitro cultivation of an African strain of Babesia bigemina, its characterisation and infectivity in cattle.

Author

Posnett ES, Metaferia E, Wiliamson S, Brown CG, and Canning EU

Subjects

Africa, Animals, Antigens, Protozoan immunology, Babesia isolation & purification, Blotting, Western, Cattle, Cryopreservation, Culture Media, Electrophoresis, Polyacrylamide Gel, Erythrocytes parasitology, Immunodominant Epitopes, Mexico, Mice, Mice, Inbred BALB C, Protozoan Proteins analysis, Protozoan Proteins immunology, Babesia growth & development, Babesia pathogenicity, Babesiosis parasitology, Cattle Diseases parasitology

Abstract

An African (Kenyan) strain of Babesia bigemina, Muguga (B(2-1)), was inoculated into a calf from a stabilate and blood from the calf was used to establish the parasite in vitro. The strain has been cultured continuously for 20 months, initially in bovine erythrocytes with 60% adult bovine serum, later, with 50%. Cultures were incubated at 37 degrees C in RPMI 1640 medium with a gas mixture of 1% O2, 5% CO2, 94% N2. Adaptation in vitro was demonstrated when serum from a calf which had recovered from infection with B(2-1) bound to proteins of Mr 46 kDa, 49 kDa, 52 kDa, 61 kDa and 72 kDa on Western blots of B(2-1) antigens from cattle blood but did not recognise the 49 kDa or 52 kDa antigens from in-vitro-derived parasites. These proteins were considered specific for B(2-1), as they were not recognised by the same serum on profiles of a Mexican isolate of B. bigemina or an African isolate of B. bovis (Kwanyange). After 9 months of in vitro culture, a stabilate of the cultured parasite was injected into two splenectomised calves and one intact calf. The calves experienced a drop in packed cell volume and low parasitaemias but recovered spontaneously. Two of these animals, one splenectomised and one intact, were challenged with virulent B(2-1) and experienced only mild babesiosis, in contrast to a previously uninfected calf also challenged with B(2-1), which had to be euthanised after 5 days with severe babesiosis.

Published

1998

32. A mitochondrial Hsp70 orthologue in Vairimorpha necatrix: molecular evidence that microsporidia once contained mitochondria.

Author

Hirt RP, Healy B, Vossbrinck CR, Canning EU, and Embley TM

Subjects

Animals, Base Sequence, Biological Evolution, DNA, Protozoan, HSP70 Heat-Shock Proteins chemistry, HSP70 Heat-Shock Proteins classification, Microsporida ultrastructure, Molecular Sequence Data, Phylogeny, Symbiosis, HSP70 Heat-Shock Proteins genetics, Microsporida genetics, Mitochondria

Abstract

Microsporidia are small (1-20 micron) obligate intracellular parasites of a variety of eukaryotes, and they are serious opportunistic pathogens of immunocompromised patients [1]. Microsporidia are often assigned to the first branch in gene trees of eukaryotes [2,3], and are reported to lack mitochondria [2,4]. Like diplomonads and trichomonads, microsporidia are hypothesised to have diverged from the main eukaryotic stock prior to the event that led to the mitochondrion endosymbiosis [2,4]. They have thus assumed importance as putative relics of premitochondrion eukaryote evolution. Recent data have now revealed that diplomonads and trichomonads contain genes that probably originated from the mitochondrion endosymbiont [5-9], leaving microsporidia as chief candidates for an extant primitively amitochondriate eukaryote group. We have now identified a gene in the microsporidium Vairimorpha necatrix that appears to be orthologous to the eukaryotic (symbiont-derived) Hsp70 gene, the protein product of which normally functions in mitochondria. The simplest interpretation of our data is that microporidia have lost mitochondria while retaining genetic evidence of their past presence. This strongly suggests that microsporidia are not primitively amitochondriate and makes feasible an evolutionary scenario whereby all extant eukaryotes share a common ancestor which contained mitochondria.

Published

1997

33. A New Microsporidium, Nosema cristatellae n. sp. in the Bryozoan Cristatella mucedo (Bryozoa, Phylactolaemata)

Author

Canning EU, Okamura B, and Curry A

Abstract

A microsporidian infecting cells of the body wall of the phylactolaemate bryozoan Cristatella mucedo is described. All stages of the parasite are diplokaryotic and lie in direct contact with the host cell cytoplasm. Sporogony is probably disporoblastic. Spores measure 7.5 x 5.1 &mgr;m and have 22-32 coils of the polar tube arranged in several rows and a bell-like polaroplast of compact membranes. The parasite is assigned to the genus Nosema as a new species, Nosema cristatellae. It is differentiated from the previously described parasites of Alcyonella (=Plumatella) fungosa (Bryozoa), named Myxosporidium bryozoides and Nosema bryozoides, by spore characters and tissue specificity. Although it was found in a different species of bryozoan, it is not known whether N. cristatellae is infective to P. fungosa. Copyright 1997 Academic Press. Copyright 1997 Academic Press

Published

1997

34. The plaque matrix (PQM) and tubules at the surface of intramuscular parasite, Trachipleistophora hominis.

Author

Weidner E, Canning EU, and Hollister WS

Subjects

Animals, Host-Parasite Interactions, Mice, Mice, Nude, Microsporida chemistry, Microsporida ultrastructure, Muscle, Skeletal ultrastructure, Organelles ultrastructure, Protozoan Proteins analysis, Microsporida growth & development, Muscle, Skeletal parasitology

Abstract

Surface plaque matrix (PQM) and a tubular arrangement of filaments border Trachipleistophora hominis parasites during growth within host muscle. The PQM at the parasite surface forms a network of processes which can be associated with filamentous tubules. Peroxidase tracer delineated the PQM and showed apparent connections with the tubules. The tubules at the interface of T. hominis-infected cells are structurally similar to the extrasporular tubules of the microsporidian, Ameson michaelis. The extrasporular tubules of A. michaelis and the proteins from T. hominis-infected muscle reacted to keratin antibodies, K8.13, K4 and K13. Conversely, antibodies produced to T. hominis-infected muscle, reacted with the extrasporular tubular proteins of A. michaelis. The PQM and tubular elements are thought to play an important role in affecting molecular traffic between the host and parasite.

Published

1997

35. Disseminated microsporidiosis in a patient with acquired immunodeficiency syndrome.

Author

Cowley GP, Miller RF, Papadaki L, Canning EU, and Lucas SB

Subjects

AIDS-Related Opportunistic Infections pathology, Adult, Animals, Biopsy, Conjunctiva parasitology, Conjunctiva pathology, Encephalitozoonosis parasitology, Encephalitozoonosis pathology, Epithelium parasitology, Epithelium pathology, Fatal Outcome, HIV Infections, Humans, Intestine, Small pathology, Intestine, Small surgery, Kidney parasitology, Kidney pathology, Liver pathology, Lymphoma, B-Cell complications, Male, Nasal Polyps pathology, Respiratory Tract Infections parasitology, Respiratory Tract Infections pathology, AIDS-Related Opportunistic Infections parasitology, Acquired Immunodeficiency Syndrome complications, Encephalitozoonosis complications, Intestine, Small parasitology, Liver parasitology, Nasal Polyps parasitology

Published

1997

36. Monoclonal antibodies against Babesia caballi and Babesia equi and their application in serodiagnosis.

Author

Brüning A, Phipps P, Posnett E, and Canning EU

Subjects

Animals, Antibodies, Protozoan, Antibody Specificity, Antigens, Protozoan analysis, Babesia immunology, Babesiosis immunology, Electrophoresis, Polyacrylamide Gel, Enzyme-Linked Immunosorbent Assay, Horses, Mice, Mice, Inbred BALB C immunology, Sensitivity and Specificity, Serologic Tests, Antibodies, Monoclonal, Babesia isolation & purification, Babesiosis diagnosis

Abstract

The production of monoclonal antibodies to the bloodstages of the haemoprotozoan parasites Babesia caballi and Babesia equi and the characterization of their corresponding antigens are described. Species specific and immunogenic proteins of both parasites were identified using SDS-PAGE, Western blotting and ELISA. These proteins were then electroeluted from SDS-PAGE gels and used to immunize BALB/c mice for hybridoma production. One monoclonal antibody (Mab), designated BC5.37.70.27 (BC5), recognized a 70 kDa protein of B. caballi as demonstrated by Western blotting under reducing conditions. Another Mab, BE1.24/2.95 (BEI), recognized a 34 kDa protein of B. equi. Both Mabs reacted specifically in indirect ELISA when isolated whole merozoites were used as antigen. Preliminary studies using the two Mabs in a competitive ELISA (cELISA) suggest that the cELISA for the detection of B. caballi infection is more sensitive than the commonly used complement fixation test but that refinement is necessary for the B. equi system.

Published

1997

37. Myositis associated with a newly described microsporidian, Trachipleistophora hominis, in a patient with AIDS.

Author

Field AS, Marriott DJ, Milliken ST, Brew BJ, Canning EU, Kench JG, Darveniza P, and Harkness JL

Subjects

AIDS-Related Opportunistic Infections drug therapy, Adult, Albendazole administration & dosage, Animals, Anti-Infective Agents administration & dosage, Drug Therapy, Combination, Humans, Male, Microscopy, Electron, Microsporida classification, Microsporida ultrastructure, Microsporidiosis complications, Microsporidiosis drug therapy, Myositis complications, Myositis drug therapy, Pyrimethamine administration & dosage, Sulfadiazine administration & dosage, AIDS-Related Opportunistic Infections parasitology, Microsporida isolation & purification, Microsporidiosis parasitology, Myositis parasitology

Abstract

Microsporidia are zoonotic protozoa which were rare human pathogens prior to 1985, when Enterocytozoon bieneusi was described in human immunodeficiency virus-infected patients with chronic diarrhea. Another species, Encephalitozoon (Septata) intestinalis, is associated with diarrhea and chronic sinusitis, and approximately 25 cases have been reported in the literature. However, other microsporidial infections in human immunodeficiency virus-infected patients remain extremely rare. We report the first case of a Pleistophora sp.-like microsporidian infection presenting as a progressive severe myosotis associated with fever and weight loss. The organism was demonstrated by light microscopy and electron microscopy in corneal scrapings, skeletal muscle, and nasal discharge. Electron microscopy showed an electron-dense surface coat with "sunflare"-like projections surrounding all stages of development of meronts (two to four nuclei, dividing by binary fission), sporonts, and sporoblasts. Division of sporonts, in which sporonts separate from the thick outer coat, creating a sporophorous vesicle, is by binary fission, differentiating this organism from Pleistophora sp. The spore measures 4.0 by 2.5 microns and has a rugose exospore. A new genus and species, Trachipleistophora hominis, has been established for this parasite. The patient was treated with albendazole, sulfadiazine, and pyrimethamine, and the clinical symptoms resolved.

Published

1996

38. Identification of Microsporidia causing human disease.

Author

Hollister WS, Canning EU, and Anderson CL

Subjects

AIDS-Related Opportunistic Infections parasitology, Animals, DNA, Protozoan, DNA, Ribosomal, Dogs, Encephalitozoon cuniculi genetics, Encephalitozoonosis complications, Humans, Mice, Molecular Sequence Data, Polymerase Chain Reaction, Rabbits, Sequence Homology, Nucleic Acid, Encephalitozoon cuniculi isolation & purification, Encephalitozoonosis parasitology

Published

1996

39. Development and ultrastructure of Trachipleistophora hominis n.g., n.sp. after in vitro isolation from an AIDS patient and inoculation into athymic mice.

Author

Hollister WS, Canning EU, Weidner E, Field AS, Kench J, and Marriott DJ

Subjects

Animals, Cell Line, Humans, Mice, Mice, Inbred BALB C, Mice, Nude, Microsporida classification, Microsporida growth & development, Microsporida ultrastructure, Microsporidiosis complications, Muscles cytology, Muscles parasitology, AIDS-Related Opportunistic Infections parasitology, Microsporida isolation & purification, Microsporidiosis parasitology

Abstract

Continuous culture was achieved in several cell lines of a microsporidium obtained from the skeletal muscle of an AIDS patient. Development in COS-1 and RK13 cells was prolific. Spores from the original biopsy were also inoculated into athymic mice by i.m. and i.p. routes. Infection was found in several organs as well as in skeletal muscle after a few weeks. All stages were surrounded by an electron-dense surface coat. Meronts had 2-4 nuclei and divided by binary fission. In sporogony the surface coat became separated from the plasma membrane to form a sporophorous vesicle, within which division into sporoblasts was effected by repeated binary fissions. The number of sporoblasts (and later spores) within the sporophorous vesicles varied from 2 to > 32 and the sizes of the vesicles varied, according to the number of spores contained therein, from 5 microns diameter to 14.0 x 11.0 microns. Spores measured 4.0 x 2.4 microns and had a prominent posterior vacuole. The parasite differs from the genus Pleistophora in that it does not form multinucleate sporogonial plasmodia and that the sporophorous vesicle enlarges during sporogony and its wall is not a multilayered structure. It is proposed to place it in a new genus and species Trachipleistophora hominis n.g., n.sp.

Published

1996

40. Evidence for the smallest nuclear genome (2.9 Mb) in the microsporidium Encephalitozoon cuniculi.

Author

Biderre C, Pagès M, Méténier G, Canning EU, and Vivarès CP

Subjects

Animals, Biological Evolution, Cell Nucleus chemistry, DNA, Protozoan genetics, DNA, Protozoan isolation & purification, Electrophoresis, Gel, Pulsed-Field, Encephalitozoon cuniculi genetics, Genome, Protozoan

Published

1995

41. Encephalitozoon cuniculi isolated from the urine of an AIDS patient, which differs from canine and murine isolates.

Author

Hollister WS, Canning EU, Colbourn NI, and Aarons EJ

Subjects

AIDS-Related Opportunistic Infections parasitology, Animals, Antigens, Protozoan analysis, Base Sequence, Blotting, Western, Cell Line, DNA Primers, DNA, Protozoan analysis, DNA, Protozoan genetics, Electrophoresis, Polyacrylamide Gel, Encephalitozoon cuniculi genetics, Encephalitozoon cuniculi ultrastructure, Encephalitozoonosis diagnosis, Encephalitozoonosis urine, Humans, Kidney, Microscopy, Electron, Molecular Sequence Data, AIDS-Related Opportunistic Infections urine, Dogs parasitology, Encephalitozoon cuniculi isolation & purification, Encephalitozoonosis etiology, Mice parasitology, Polymerase Chain Reaction methods

Abstract

A species of Encephalitozoon has been isolated from the urine of a patient with the acquired immunodeficiency syndrome and maintained in vitro in Madin Darby Canine Kidney cells. When examined by random amplified polymorphic DNA polymerase chain reaction the new isolate was found to differ from E. hellem and to have amplified products in common with murine and canine E. cuniculi. However, it more closely resembled the canine than the murine isolate. Sodium dodecylsulphate polyacrylamide gel electrophoresis differentiated between all three isolates of E. cuniculi, with a band at 42-45 kDa present in the murine isolate only, bands at 52 kDa present in the canine and human isolates but not the murine, and a single band at 60 kDa (murine) and 65 kDa (canine) replaced by two bands at 55 and 70 kDa in the human isolate. The 55 kDa and 70 kDa antigens were also revealed as characteristic bands of the human isolate by Western blotting. The study has thus revealed that the species Encephalitozoon cuniculi is not a homogeneous entity.

Published

1995

42. Vittaforma corneae n. comb. for the human microsporidium Nosema corneum Shadduck, Meccoli, Davis & Font, 1990, based on its ultrastructure in the liver of experimentally infected athymic mice.

Author

Silveira H and Canning EU

Subjects

Animals, Cell Nucleus parasitology, Cell Nucleus pathology, Cell Nucleus ultrastructure, Endoplasmic Reticulum parasitology, Endoplasmic Reticulum pathology, Endoplasmic Reticulum ultrastructure, Humans, Liver pathology, Mice, Mice, Nude, Microscopy, Electron, Microsporidiosis parasitology, Nosema ultrastructure, Liver parasitology, Microsporidiosis pathology, Nosema classification, Nosema growth & development

Abstract

A new genus, Vittaforma n.g. is proposed for the human microsporidium Nosema corneum Shadduck, Meccoli, Davis & Font, 1990, based on the ultrastructure of developmental stages in the liver of experimentally infected athymic mice. The diplokaryotic arrangement of the nuclei is the only character that conforms with the description of the genus Nosema. Sporogony is polysporoblastic, sporonts are ribbon-shaped, constricting to give rise to linear arrays of sporoblasts and each parasite is enveloped by a complete cisterna of host endoplasmic reticulum. Comparison of N. corneum, with established genera revealed that there were none with the same combination of characters. Consequently it is proposed that Nosema corneum be placed in a new genus as Vittaforma corneae n. comb.

Published

1995

43. In vitro cultivation of the human microsporidium Vittaforma corneae: development and effect of albendazole.

Author

Silveira H and Canning EU

Subjects

Animals, Cell Line, Dogs, Fibroblasts, Humans, Kidney, Lung embryology, Microsporida drug effects, Microsporida ultrastructure, Nosema drug effects, Nosema ultrastructure, Spores, Xenopus, Albendazole pharmacology, Anthelmintics pharmacology, Microsporida growth & development, Nosema growth & development

Abstract

When in vitro growth of Vittaforma corneae was tested using MDCK, MRC-5, XEN, L-929 and FHM cell lines, propagation occurred only in MDCK, MRC-5 and XEN cells. The intervals required for the various stages of the life cycle to develop were the same in all the cell lines tested. The MDCK cell line was selected to support the growth of V. corneae in vitro and provide the system for in vitro testing of drugs. The weekly output of V. corneae spores from the MDCK cell monolayer was monitored over a 61-week period during which there were fluctuations but no definite increase or decrease in output. Albendazole at 2.1 or 4.2 micrograms/ml in MEM was tested against V. corneae in MDCK cell monolayers and showed antimicrosporidial activity. The percentage of infected cells was reduced in the presence of the drug and there were ultrastructural abnormalities in all stages of the life cycle. The drug prevents parasite division.

Published

1995

44. Septata intestinalis frequently isolated from stool of AIDS patients with a new cultivation method.

Author

van Gool T, Canning EU, Gilis H, van den Bergh Weerman MA, Eeftinck Schattenkerk JK, and Dankert J

Subjects

Animals, Cells, Cultured, Humans, Microsporida growth & development, Microsporida ultrastructure, Acquired Immunodeficiency Syndrome parasitology, Feces parasitology, Microbiological Techniques, Microsporida isolation & purification

Abstract

Two species of microsporidia, Enterocytozoon bieneusi and Septata intestinalis have been reported as intestinal parasites of AIDS patients. In attempts to establish E. bieneusi in vitro, spores were concentrated from stool samples from 4 AIDS patients with biopsy-proven E. bieneusi infections. After sterilization of the concentrate in antibiotic solution, the spores were added to monolayers of RK13 cells grown on the membranes of Transwells. Cultures were established from 7 stool samples from the 4 patients but in every case the species established was S. intestinalis not E. bieneusi. On retrospective examination of the stools, a very small number of spores of a size comparable to that of S. intestinalis was found but this species was not detected in biopsies. Typical septate vacuoles containing Type I tubules were observed in vitro but in contrast to the original description, meronts were intravacuolar and sporogony was mainly disporoblastic. The cultivation system, used for the first time for microsporidia, revealed the presence of unsuspected S. intestinalis infections and indicates that this species may be much more common than hitherto suspected. S. intestinalis has not previously been cultured.

Published

1994

45. Reversible renal failure caused by a microsporidian infection.

Author

Aarons EJ, Woodrow D, Hollister WS, Canning EU, Francis N, and Gazzard BG

Subjects

AIDS-Related Opportunistic Infections drug therapy, Acute Kidney Injury diagnosis, Adult, Animals, Biopsy, Creatinine blood, Encephalitozoon isolation & purification, Encephalitozoonosis drug therapy, HIV Seropositivity, Homosexuality, Male, Humans, Kidney parasitology, Kidney pathology, Male, AIDS-Related Opportunistic Infections complications, Acute Kidney Injury etiology, Albendazole therapeutic use, Encephalitozoonosis complications

Abstract

Objective: To report a case of renal failure associated with microsporidian infection in an HIV-seropositive patient., Design: Case report., Setting: Chelsea and Westminster Hospital, London, England, UK., Patient: An HIV-seropositive patient presented febrile with abdominal pain who developed renal failure. Renal biopsy and urinalysis showed infection with a microsporidian of the genus Encephalitozoon., Intervention: Treatment with albendazole (400 mg) twice daily was associated with disappearance of infection from the urine, clinical improvement and return of renal function virtually to normal., Conclusion: HIV-seropositive individuals with renal failure should have urine screened for microsporidia. The administration of albendazole in such cases may reverse renal failure.

Published

1994

46. An improved practical and sensitive technique for the detection of microsporidian spores in stool samples.

Author

van Gool T, Canning EU, and Dankert J

Subjects

Animals, Cryptosporidium isolation & purification, Humans, Microscopy, Fluorescence, Oocytes, Sensitivity and Specificity, Diarrhea parasitology, Feces parasitology, Microsporida isolation & purification, Microsporidiosis diagnosis

Published

1994

47. Experimental infection of athymic mice with the human microsporidian Nosema corneum.

Author

Silveira H, Canning EU, and Shadduck JA

Subjects

Animals, Brain parasitology, Brain pathology, Disease Models, Animal, Eye parasitology, Eye pathology, Female, Heart parasitology, Humans, Intestines parasitology, Intestines pathology, Kidney parasitology, Kidney pathology, Liver parasitology, Liver pathology, Lung parasitology, Lung pathology, Mice, Mice, Inbred BALB C, Mice, Nude, Microsporidiosis parasitology, Microsporidiosis pathology, Myocardium pathology, Organ Specificity, Spleen parasitology, Spleen pathology, Microsporidiosis physiopathology, Nosema isolation & purification

Abstract

Athymic mice (BALB/c nu/nu/Ola/Hsd) were experimentally infected intraperitoneally with Nosema corneum spores. Infection was monitored in the first and second weeks post-infection. The liver, spleen, kidney, intestine, lung, heart, brain and eye were collected. Quantification of infection in each organ using three different techniques gave approximately the same pattern of infection. Infection increased with time. Histological observations were made on the sites of infection in each organ. All organs were infected, the liver being the most heavily infected. The eye was infected in the retina in contrast to the cornea which was the site of infection in the original host. The present study of N. corneum in athymic mice has shown that this system could also be used to study host-parasite relationships and serve as a model for testing therapeutic agents. Previously the only microsporidian serving as a suitable model for human microsporidiosis was Encephalitozoon cuniculi.

Published

1993

48. Characterization of Encephalitozoon hellem (Microspora) isolated from the nasal mucosa of a patient with AIDS.

Author

Hollister WS, Canning EU, Colbourn NI, Curry A, and Lacey CJ

Subjects

Animals, Antibodies, Protozoan, Antigens, Protozoan analysis, Blotting, Western, Cells, Cultured, Dogs, Encephalitozoon classification, Encephalitozoon immunology, Encephalitozoon ultrastructure, Encephalitozoon cuniculi chemistry, Humans, Protozoan Proteins analysis, AIDS-Related Opportunistic Infections parasitology, Encephalitozoon isolation & purification, Encephalitozoonosis complications, Encephalitozoonosis parasitology, Nasal Mucosa parasitology

Abstract

A microsporidium of the genus Encephalitozoon was isolated into culture from the nasal epithelium of a patient with AIDS. It was compared with in vitro isolates of Encephalitozoon cuniculi and the type isolate of Encephalitozoon hellem by SDS-PAGE and by Western blotting with murine antisera raised to E. cuniculi, E. hellem and the nasal isolate, monoclonal antibodies raised to E. cuniculi and sequential sera from the patient. All tests showed similarities between E. hellem and the nasal isolate but differences between these two isolates and E. cuniculi. Minor protein differences between E. hellem and the nasal isolate were not considered sufficient to separate them at the specific level. The new isolate is named the Wainwright isolate of E. hellem. The ultrastructure of the Wainwright isolate in vitro was similar to that of the parasite in vivo but there was a greater tendency for disruption of the parasitophorous vacuoles. The deposition of the electron-dense surface coat on the sporogonic stages of E. hellem, as a uniform layer which later thickens, is in contrast to its deposition as broad bands, which later join up, in E. cuniculi. This may be a useful character in distinguishing the species without recourse to analysis of protein profiles.

Published

1993

49. Human microsporidiosis.

Author

Curry A and Canning EU

Subjects

Albendazole therapeutic use, Animals, Eye Infections, Parasitic drug therapy, Eye Infections, Parasitic parasitology, Humans, Intestinal Diseases, Parasitic drug therapy, Intestinal Diseases, Parasitic parasitology, Itraconazole therapeutic use, Microsporida isolation & purification, Microsporida physiology, AIDS-Related Opportunistic Infections drug therapy, AIDS-Related Opportunistic Infections epidemiology, AIDS-Related Opportunistic Infections parasitology, Microsporidiosis drug therapy, Microsporidiosis epidemiology, Microsporidiosis parasitology

Published

1993

50. The antimicrosporidial activity of albendazole.

Author

Haque A, Hollister WS, Willcox A, and Canning EU

Subjects

Animals, Cells, Cultured, Larva, Moths growth & development, Moths microbiology, Pupa, Tubulin drug effects, Albendazole pharmacology, Antiprotozoal Agents pharmacology, Nosema drug effects

Abstract

The antimicrosporidial activity of albendazole was tested on Nosema bombycis in vitro in Spodoptera frugiperda cells and in vivo in Heliocoverpa zea larvae and pupae. Significant reductions in the percentage of infected S. frugiperda cells were obtained using a concentration of 5.3 micrograms/ml albendazole in tissue culture medium but recrudescence occurred after the drug was withdrawn from the cultures. Significant reductions in the number of spores harvested from 6th-instar larvae or pupae were obtained when doses of 0.2 to 4.0 mg were incorporated into the diet but, with the lower doses, some resurgence of infection occurred in pupae after cessation of drug intake. Established infections were almost eliminated from 6th-instar larvae and pupae after consumption of 2 or 4 mg albendazole and infections were not established at all when 4 mg was consumed concurrently with the infective spores. Even at the highest dose albendazole had no deleterious effect on the growth and viability of H. zea. Clumped chromatin in the nuclei of meronts, revealed by electron microscopy, reflected the selective anti-tubulin activity of albendazole and there was massive disorganization of sporogonic development.

Published

1993