Experimental Horizontal Transmission of Enterocytozoon salmonis to Chinook Salmon, Oncorhynchus tshawytscha

Enterocytozoon salmonis was transmitted to chinook salmon Oncorhynchus tshawytscha by feeding tissues infected with the parasite and by cohabitation of noninfected fish with experimentally infected fish. Affected fish (dead and survivors) in both transmission trials had gross and microscopic signs of the disease and merogonic and sporogonic stages of the parasite. There were no morbidities or mortalities, or evidence of the parasite among control fish in either study. Results suggest that the parasite may be contracted by indirect contact among healthy and infected fish held in crowded ponds or net pens or by direct ingestion of spores found in the water.     

Experimental horizontal transmission of Enterocytozoon salmonis to chinook salmon, Oncorhynchus tshawytscha.

Enterocytozoon salmonis was transmitted to chinook salmon Oncorhynchus tshawytscha by feeding tissues infected with the parasite and by cohabitation of noninfected fish with experimentally infected fish. Affected fish (dead and survivors) in both transmission trials had gross and microscopic signs of the disease and merogonic and sporogonic stages of the parasite. There were no morbidities or mortalities, or evidence of the parasite among control fish in either study. Results suggest that the parasite may be contracted by indirect contact among healthy and infected fish held in crowded ponds or net pens or by direct ingestion of spores found in the water.     

In vitro and in vivo investigations of human microsporidia.

The numerous infections of microsporidia which have been diagnosed in patients with AIDS have revealed the potential of these organisms for establishing themselves when the immune status of the host is compromised. Two species of Encephalitozoon, E. cuniculi and E. hellem, have been diagnosed in man, the former infecting a variety of tissues, the latter restricted to the corneal and conjunctival epithelia. These species are morphologically indistinguishable even at the ultrastructural level but can be separated biochemically. Two human sera were found to react with equal intensity in the ELISA on spores of E. cuniculi and E. hellem purified from in vitro cultures, and gave similar binding patterns in Western blots on SDS-PAGE protein profiles of the two species. This has raised questions about the identity of Encephalitozoon infections diagnosed previously in man. The diagnosis of Enterocytozoon bieneusi, which infects the intestinal enterocytes of AIDS patients and is associated with chronic diarrhoea, requires observation of smears or sections of biopsies or specialist observation of stool preparations. In vitro cultures, which would facilitate the raising of specific antisera, have proved difficult to establish. In vitro and in vivo systems for assaying drugs for microsporidia have revealed that albendazole has a marked effect on parasite numbers and morphology but does not eliminate infection, which resurges when drug pressure is removed.     

Molecular characterization of Encephalitozoon intestinalis (Microspora) replication kinetics in a murine intestinal cell line

Microsporidia are obligate intracellular pathogens of invertebrate and vertebrate animals. Most human infections are caused by Enterocytozoon bieneusi or Encephalitozoon intestinalis, and result in chronic diarrhea. In order to determine the signals involved in microsporidial spore activation and invasion, kinetics of in vitro E. intestinalis replication were defined using real-time quantitative PCR. Segments of small subunit ribosomal RNA and polar tube protein 2 genes of E. intestinalis were used to quantify parasite gene copy number following infection in murine colon carcinoma cells. Parasite DNA was detectable in small but significant amounts within host cells as early as 4 h postinoculation, genome replication was completed by 36 h, and parasite progeny were released into the supernatant beginning 72 h postinoculation. Heat-treating spores did not prevent transfer of parasite DNA into cells, but did inhibit parasite replication. Treating cell cultures with albendazole suppressed but did not completely inhibit parasite replication. These results confirm observations that E. intestinalis completes its life cycle within the turnover time of its target host cells; invasion into susceptible host cells occurs independently of spore viability; and real-time quantitative PCR is a sensitive and reproducible method with which to monitor microsporidial infection under varying treatments or conditions.     

Identification of a New Microsporidian Parasite Related to Vittaforma corneae in HIV-Positive and HIV-Negative Patients from Portugal

ABSTRACT. Fecal samples from 22 HIV-positive and 3 HIV-negative patients from Portugal with symptomatic diarrhea were diagnosed positive for microsporidia by microscopy, with most parasites detected significantly bigger than Enterocytozoon bieneusi and Encephalitozoon spp. Sequence characterization of the small subunit (SSU) rRNA gene identified a microsporidian parasite with 96% homology to two published Vittaforma corneae sequences. Phylogenetic analysis confirmed the genetic relatedness of this new microsporidian parasite to Vittaforma corneae as well as Cystosporogenes operophterae. Results of the study demonstrate the presence of a new human-pathogenic microsporidian species, which is responsible for significant number of infections in HIV-positive and HIV-negative patients in Portugal.     

Enterocytozoon salmonis n. sp.: an intranuclear microsporidium from salmonid fish

The developmental stages of a recently described microsporidian from the nucleus of hematopoietic cells of salmonid fish were found to be unique among the Microsporida. All observed stages, including meronts, sporonts, and spores were in direct contact with the host cell nucleus (principally hematopoietic cells) of chinook salmon (Oncorhynchus tshawytscha). There is no parasitophorous vacuole and sporogony does not involve formation of a pansporoblastic membrane as with other members of the suborder Apansporoblastina. The extrusion apparatus differentiates prior to division of sporogonial plasmodia. The spores are ovoid (1 x 2 microns) and uninucleate, and possess a coiled polar tube with 8-12 turns. Developmental stages of the salmonid microsporidian are similar to those described for Enterocytozoon bieneusi as found in the intestinal mucosa of human AIDS patients. However, the intranuclear development, different cell types, and host infected clearly separate the salmonid and human parasites. Accordingly, the intranuclear parasite of salmonids is given the name Enterocytozoon salmonis n. sp. within the suborder Apansporoblastina.     

Molecular characterizations of Cryptosporidium, Giardia, and Enterocytozoon in humans in Kaduna State, Nigeria

The use of molecular diagnostic tools in epidemiological investigations of Cryptosporidium, Giardia, and Enterocytozoon has provided new insights into their diversity and transmission pathways. In this study, 157 stool specimens from 2-month to 70-year-old patients were collected, a polymerase chain reaction (PCR)-restriction fragment length polymorphism (RFLP) analysis of the small subunit (SSU) rRNA gene was used to detect and differentiate Cryptosporidium species, and DNA sequence analysis of the 60 kDa glycoprotein (gp60) gene was used to subtype Cryptosporidium hominis and Cryptosporidium parvum. Giardia duodenalis, and Enterocytozoon bieneusi in the specimens were detected using PCR and sequence analysis of the triosephosphate isomerase (tpi) gene and internal transcribed spacer (ITS), respectively. C. hominis and C. parvum were found in two (1.3%) and one (0.6%) specimen respectively, comprising of Ia and IIe (with 8 nucleotide substitutions) subtype families. The G. duodenalis A2 subtype was detected in five (3.2%) specimens, while four genotypes of E. bieneusi, namely A, type IV, D and WL7 were found in 10 (6.4%) specimens. Children aged two years or younger had the highest occurrence of Cryptosporidium (4.4%) and Enterocytozoon (13.0%) while children of 6 to 17 years had the highest Giardia infection rate (40.0%). No Cryptosporidium, Giardia, and Enterocytozoon were detected in patients older than 60 years. Enterocytozoon had high infection rates in both HIV-positive (3.3%) and HIV-negative (8.3%) patients. Results of the study suggest that anthroponotic transmission may be important in the transmission of Cryptosporidium spp. and G. duodenalis while zoonotic transmissions may also play a role in the transmission of E. bieneusi in humans in Kaduna State, Nigeria.     

Microsporida infections in immunocompetent and immunosuppressed subjects]

Parasites of the phylum Microspora are obligatory intracellular protoza with a widespread host range among invertebrates and vertebrates. Species from Nosema, Encephalitozoon, Enterocytozoon and Pleistophora genera can infect immunocompetent and immunosuppressed patients. The emergency of the AIDS epidemic has recently highlighted the role of these parasites in human pathology, microsporidian species being a frequent cause of diarrhoea and ocular infections. Recent acquisitions in the taxonomy and life cycle of this parasite group, as well as pathogenesis, immunopathology, clinical aspects, diagnosis, therapy and epidemiology of human microsporidiosis are reviewed and discussed.     

Enterocytozoon hepatopenaei sp. nov. (Microsporida: Enterocytozoonidae), a parasite of the black tiger shrimp Penaeus monodon (Decapoda: Penaeidae): Fine structure and phylogenetic relationships

A new microsporidian species, Enterocytozoon hepatopenaei sp. nov., is described from the hepatopancreas of the black tiger shrimp Penaeus monodon (Crustacea: Decapoda). Different stages of the parasite are described, from early sporogonal plasmodia to mature spores in the cytoplasm of host-cells. The multinucleate sporogonal plasmodia existed in direct contact with the host-cell cytoplasm and contained numerous small blebs at the surface. Binary fission of the plasmodial nuclei occurred during early plasmodial development and numerous pre-sporoblasts were formed within the plasmodium. Electron-dense disks and precursors of the polar tubule developed in the cytoplasm of the plasmodium prior to budding of early sporoblasts from the plasmodial surface. Mature spores were oval, measuring 0.7 × 1.1 μm and contained a single nucleus, 5-6 coils of the polar filament, a posterior vacuole, an anchoring disk attached to the polar filament, and a thick electron-dense wall. The wall was composed of a plasmalemma, an electron-lucent endospore (10 nm) and an electron-dense exospore (2 nm). DNA primers designed from microsporidian SSU rRNA were used to amplify an 848 bp product from the parasite genome (GenBank FJ496356). The sequenced product had 84% identity to the matching region of SSU rRNA from Enterocytozoon bieneusi. Based upon ultrastructural features unique to the family Enterocytozoonidae, cytoplasmic location of the plasmodia and SSU rRNA sequence identity 16% different from E. bieneusi, the parasite was considered to be a new species, E. hepatopenaei, within the genus Enterocytozoon.     

Plasmodium falciparum DNA helicase 60. dsRNA- and antibody-mediated inhibition of malaria parasite growth and downregulation of its enzyme activities by DNA-interacting compounds

Helicases are ubiquitous enzymes that play important roles in all types of DNA transaction in the cells. Recently we have reported the characterization of the first DEAD-box helicase [Plasmodium falciparum DNA helicase 60 (PfDH60)] from Plasmodium falciparum and have shown that it is a unique, dual bipolar helicase expressed in a stage-specific manner. In this study, we show the further characterization of PfDH60. For analyzing the significance of this enzyme in parasite growth, we studied the effect of dsRNA and specific antibodies on growth of the parasite. The studies indicate that the parasite cultures treated with PfDH60 dsRNA exhibited approximately 50% growth inhibition when compared with either untreated cultures or cultures treated with unrelated dsRNA. It was interesting to note that purified immunoglobulins against PfDH60 induced approximately 62% inhibition of in vitro growth of P. falciparum and that this inhibitory effect was associated with morphologic damage to the parasite. DNA-interacting compounds inhibit DNA helicase and ssDNA-dependent ATPase activities of PfDH60. Of various compounds tested, only actinomycin, daunorubicin, ethidium bromide, netropsin and nogalamycin were able to inhibit the enzyme activities of PfDH60, with apparent IC50 values for helicase inhibition of 0.8, 0.3, 2.0, 1.2 and 1.5 microm, respectively. It may be proposed that these compounds form a complex with DNA and specifically inhibit helicases due to obstruction in the translocation of the enzyme. These compounds also inhibited parasite growth in culture. This is the first study to show inhibition of growth of the parasite by the dsRNA of a helicase, and most probably this is due to interference with cognate mRNA expression.     

The effect of cohabitation of Tubifex tubifex (Oligochaeta: Tubificidae) populations on infections to Myxobolus cerebralis (Myxozoa: Myxobolidae)

The competitive interactions between susceptible and resistant Tubifex tubifex (Oligochaeta: Tubificidae) exposed to Myxobolus cerebralis (Myxozoa: Myxobolidae) infections were investigated in two laboratory trials. Competition was assessed by the total parasite production over the course of the trials in mixed and pure cultures of M. cerebralis exposed worms, and by the genetic analyses of worms from the control and experimental groups at the beginning and end of the experiments. Mixed cultures of resistant and susceptible worms showed a 70% reduction in production of parasites released when compared with pure cultures of susceptible worms. In studies with laboratory and field-collected oligochaetes the mixed cultures at the end of the cohabitation experiments were dominated by resistant Tubifex from lineage V (HB strain) this strain of Tubifex has a competitive advantage over worms from other lineages. The results of this study suggest that certain species of Tubifex may be dead-end hosts to M. cerebralis by absorbing or inactivating the parasite and may also show greater survival compared to susceptible oligochaetes in certain whirling disease enzootic habitats.     

Fish microsporidia: fine structural diversity and phylogeny

Structural diversity of fish microsporidian life cycle stages and of the host-parasite interface is reviewed. In the infected cell of the fish host, microsporidia may either cause serious degradation of the cytoplasm and demise of the cell, or they may elicit host cell hypertrophy, producing a parasite-hypertrophic host cell complex, the xenoma. The structure of the xenoma and of its cell wall may differ according to the genus of the parasite, and seems to express properties of the parasite rather than those of the host. In merogony, the parasite cell surface interacts with the host cell in diverse ways, the most conspicuous being the production of thick envelopes of different types. Sporogony stages reveal different types of walls or membranes encasing the sporoblasts and later the spores and these envelopes may be of host or parasite origin. Nucleospora differs from all other fish microsporidia by its unique process of sporogony. Except for the formation of conspicuous xenomas, there are no essentially different structures in fish-infecting microsporidia compared with microsporidia from other hosts. Although the structures associated with the development of fish microsporidia cannot be attributed importance in tracing the phylogeny, they are relevant for practical determination and assessing the relation to the host. The possibility of the existence of an intermediate host is discussed. Higher-level classification of Microsporidia is briefly discussed and structure and evolutionary rates in microsporidian rDNA are reviewed. Discussion of rDNA molecular phylogeny of fish-infecting microsporidia is followed by classification of these parasites. Most form a rather cohesive clade. Outside this clade is the genus Nucleospora, separated at least at the level of Order. Within the main clade, however, there are six species infecting hosts other than fish. Based on data available for analysis, a tentative classification of fish-infecting microsporidia into five groups is proposed. Morphologically defined groups represent families, others are referred to as clades. Group 1, represented by family Pleistophoridae, includes Pleistophora, Ovipleistophora and Heterosporis; Vavraia and Trachipleistophora infect non-fish hosts. Group 2, represented by family Glugeidae, is restricted to genus Glugea and Tuzetia weidneri from crustaceans. Group 3 comprises three clades: Loma and a hyperparasitic microsporidian from a myxosporean; Ichthyosporidium and Pseudoloma clade and the Loma acerinae clade. For the latter species a new genus has to be established. Group 4 contains two families, Spragueidae with the genus Spraguea and Tetramicridae with genera Microgemma and Tetramicra, and the Kabatana and Microsporidium seriolae clade. Group 5 is represented by the family Enterocytozoonidae with the genus Nucleospora and mammal-infecting genus Enterocytozoon.     

Trypanosoma cruzi: cytokine effects on macrophage trypanocidal activity

Mouse macrophages infected with Trypanosoma cruzi in vitro may be activated to reduce parasite infection by interferon gamma (IFN-gamma). The addition of up to 10,000 units of IFN-gamma however, does not result in a 100% reduction of intracellular parasites. We, therefore, investigated the possibility that macrophages require an additional signal or signals to completely clear T. cruzi infection. Because the combination of IFN-gamma with lipopolysaccharide greatly enhanced macrophages ability to decrease the number of intracellular parasites, the interaction of IFN-gamma with tumor necrosis factor (TNF) was examined. TNF alone and the combination of TNF with IFN-gamma did not have a significant effect on reducing parasite numbers below that obtained with IFN-gamma alone. This was also true for lymphotoxin, a lymphokine similar to TNF in structure and function. The effect of IFN-gamma in combination with a cytokine-rich supernatant containing IL-2, IL-3, IL-4, IL-5, and IFN-gamma on macrophage clearance of the parasite was also examined. The cytokine-rich supernatant alone had no effect on reducing parasite infection of the macrophages; indeed, in some experiments the addition of the supernatant resulted in an increase in the level of parasite infection. However, 1000 units of IFN-gamma combined with the complex cytokine mixture caused a decrease in parasite infection of nearly 100% compared to that of control cultures treated with media alone. To determine which cytokine or cytokines in the supernatant were responsible for this synergistic activity, anti-cytokine antibodies were added to the supernatant prior to its addition with IFN-gamma to the cultures. Anti-IL-4 was the only antibody found to inhibit the synergism of IFN-gamma with the cytokine-rich supernatant. IL-4, however, did not significantly enhance the ability of IFN-gamma to induce macrophage clearance of the parasite, and IL-4 alone caused a slight increase in parasite infection in vitro. These results further define the role that cytokines play in T. cruzi infection of macrophages in vitro and suggest that the interaction of cytokine networks within this system is complex.     

Investigation of volatile organic biomarkers derived from Plasmodium falciparum in vitro

ABSTRACT: BACKGROUND: There remains a need for techniques that improve the sensitive detection of viable Plasmodium falciparum as part of diagnosis and therapeutic monitoring in clinical studies and usual-care management of malaria infections. A non-invasive breath test based on P. falciparum-associated specific volatile organic compounds (VOCs) could fill this gap and provide insights into parasite metabolism and pathogenicity. The aim of this study was to determine whether VOCs are present in the headspace above in vitro P. falciparum cultures. METHODS: A novel, custom-designed apparatus was developed to enable efficient headspace sampling of infected and non-infected cultures. Conditions were optimized to support cultures of high parasitaemia (>20%) to improve the potential detection of parasite-specific VOCs. A number of techniques for VOC analysis were investigated including solid phase micro-extraction using two different polarity fibres, and purge and trap/thermal desorption, each coupled to gas chromatography-mass spectrometry. Each experiment and analysis method was performed at least on two occasions. VOCs were identified by comparing their mass spectra against commercial mass spectral libraries. RESULTS: No unique malarial-specific VOCs could be detected relative to those in the control red blood cell cultures. This could reflect sequestration of VOCs into cell membranes and/or culture media but solvent extractions of supernatants and cell lysates using hexane, dichloromethane and ethyl acetate also showed no obvious difference compared to control non-parasitized cultures. CONCLUSIONS: Future in vivo studies analysing the breath of patients with severe malaria who are harbouring a parasite biomass that is significantly greater than achievable in vitro may yet reveal specific clinically-useful volatile chemical biomarkers.     

Hepatospora eriocheir (Wang and Chen, 2007) gen. et comb. nov. infecting invasive Chinese mitten crabs (Eriocheir sinensis) in Europe

We describe a microsporidian parasite infecting non-native Chinese mitten crabs (Eriochier sinensis) from Europe. Electron microscopy revealed merogonic and sporogonic life stages bound within a plasmalemma. The crab parasite develops polar tube precursors at the sporont stage but does not complete formation of the intact spore extrusion apparatus at the stage of the sporogonial plasmodium like Enterocytozoon bienuesi and other representatives of the Enterocytozoonidae. Its presence within an aquatic crustacean host, and a distinct molecular phylogeny based on partial small subunit ribosomal RNA (SSU rRNA) gene sequences also place it relatively close, though distinct to, existing genera within the Enterocytozoonidae. Consideration of morphological and phylogenetic characteristics of other hepatopancreas-infecting microsporidia from crustaceans suggests that certain ones (e.g. Enterospora canceri) are retained within the clade corresponding to the existing family Enterocytozoonidae, while others, including the parasite described here, may eventually be grouped in a sister taxon potentially of family rank. Based upon morphological and host similarity, it is likely that the parasite described here is the same as Endoreticulatus eriocheir (Wang and Chen, 2007), previously described from Chinese mitten crabs in Asia. However, using a combined taxonomic approach based upon morphological and phylogenetic data, we propose the formation of a new genus (Hepatospora) to replace the previous generic classification of the Asian parasite as Endoreticulatus. The microsporidian from the hepatopancreas of E. sinensis is named Hepatospora eriocheir (Wang and Chen, 2007) gen. et comb. nov. It is assumed that the parasite was introduced during initial invasions of this crab to Europe during the early 20th Century.     

Molecular characterization of microsporidia indicates that wild mammals Harbor host-adapted Enterocytozoon spp. as well as human-pathogenic Enterocytozoon bieneusi

Over 13 months, 465 beavers, foxes, muskrats, otters, and raccoons were trapped in four counties in eastern Maryland and examined by molecular methods for microsporidia. A two-step nested PCR protocol was developed to amplify a 392-bp fragment of the internal transcribed spacer region of the rRNA gene of Enterocytozoon spp., with the use of primers complementary to the conserved regions of published nucleotide sequences. Fifty-nine PCR-positive samples were sequenced. Multiple alignments of these sequences identified 17 genotypes of Enterocytozoon spp. (WL1 to WL17); of these, 15 have not been reported before. Most of the genotypes were found in multiple species of wildlife and belonged to a major group consisting of all the previously described Enterocytozoon bieneusi genotypes from human and domestic animals. Some of the isolates from muskrats and raccoons formed two distinct groups. Results of this study indicate that fur-bearing mammals, especially those closely associated with surface water, can be a potential source of human-pathogenic E. bieneusi. However, there are also host-adapted Enterocytozoon genotypes in wildlife, which may represent species different from E. bieneusi and have no apparent public health significance. This is the first report of E. bieneusi in wildlife.     

A comparison of two microsporidian parasites in enterocytes of AIDS patients with chronic diarrhea.

Enterocytozoon bieneusi was first described by electron microscopy in 1985 in intestinal biopsies from an AIDS patient. It has subsequently been observed in many AIDS patients with chronic diarrhea from the U.S.A., Africa, and Europe. Morphologically, this parasite meets the criteria for being a microsporidian but has unique features justifying the creation of a a new genus and family. It has organelles not seen in microsporida before, i.e. elongated nuclei, electron-lucent inclusions, electron-dense discs, and development of multiple polar tubules in a single cell prior to the final cytokinetic process producing many sporoblasts. However, it produces typical microsporidian spores. Recently, a second type of microsporidian has been observed in similar biopsies from an AIDS patient which resembles an Encephalitozoon except that it secretes a fine network of material in which the developing organisms become embedded. During sporogony, each cell appears to be in a separate chamber. These two parasites are morphologically and pathologically compared.     

Detection of new Enterocytozoon genotypes in faecal samples of farm dogs and a cat.

The microsporidian species Enterocytozoon bieneusi had emerged as opportunistic pathogen in AIDS patients causing chronic diarrhoea and was found with high prevalences in faeces of asymptomatic pigs. Analysis of the ribosomal RNA gene internal transcribed spacer (rDNA ITS) had revealed that nine distinct but closely related genotypes occur in humans and in swine. Using primers that were designed to be specific for E. bieneusi, we obtained amplicons from the faecal samples of one from twelve cats and from three out of 36 farm dogs. Sequence analysis of the rDNA ITS, which is part of the diagnostic PCR product, revealed that the isolate from the cat is very closely related to the E. bieneusi genotypes of human or swine origin. The corresponding sequence of all three dog-derived isolates were identical among each other and had a sequence similarity to known sequences of only 47.6-48.2%. In addition, part of the small subunit rRNA gene was amplified and sequenced from one dog-derived isolate revealing a similarity to known sequences of human-derived E. bieneusi of 96-98%. Enterocytozoon-like spores could be detected by light microscopy in one canine sample. Together with recent reports of detection of Enterocytozoon in environmental samples, our findings suggest that microsporidia of the genus. Enterocytozoon seem to be ubiquitous and consist of many genotypes in various naturally infected animal species.     

Intestinal microsporidiosis: a current infection in HIV-seropositive patients in Portugal

Intestinal microsporidiosis is recognised as an important cause of opportunistic infections in immunocompromised patients, especially those with AIDS. Two species are implicated in diarrhoea and other gastrointestinal disease in HIV-infected patients: Enterocytozoon bieneusi and Encephalitozoon intestinalis. Diagnosis of gastrointestinal microsporidiosis was made by detecting spores of the parasite in stool specimens with Weber's modified trichrome stain and with some optical brightening agents such as UVITEX 2B or calcofluor white M2R. The identification of microsporidiosis at the species level was made using appropriate primers with PCR. The diagnosis of intestinal microsporidiosis is currently performed in the parasitology laboratory. In a study of 215 HIV-infected patients, conducted from 1996 to 1999 (approximately n = 60/year), we found a prevalence of spores of microsporidia of 51.5% (n = 31) in 1996, 14.0% (n = 5) in 1997 and 12.5% (n = 8) in 1998 and 42.8% (n = 25) in 1999. Using PCR we found that E. intestinalis was the only species responsible for the gastrointestinal symptoms in 49 patients with microsporidian spores (71%) and E. bieneusi in 29% (n = 20).     

Small Subunit Ribosomal DNA Phylogeny of Various Microsporidia with Emphasis on AIDS Related Forms

ABSTRACT. Phylogenetic analysis of the small subunit ribosomal DNA of a broad range of representative microsporidia including five species from humans ( Enterocytozoon bieneusi, Nosema corneum, Septata intestinalis, Encephalitozoon hellem and Encephalitozoon cuniculi ), reveals that human microsporidia are polyphyletic in origin. Septata intestinalis and E. hellem are very similar to the mammalian parasite E. cuniculi . Based on the results of our phylogenetic analysis, we suggest that S. intestinalis be designated Encephalitozoon intestinalis . Furthermore, analysis of our data indicates that N. corneum is much more closely related to the insect parasite Endoreticulatus schubergi than it is to other Nosema species. This finding is supported by recent studies which have shown a similarity between E. schubergi and N. corneum based on the origin and development of the parasitophorous vacuole. Thus these opportunistic microsporidian parasites can originate from hosts closely or distantly related to humans. Finally, the phylogeny based on small subunit ribosomal DNA sequences is highly inconsistent with traditional classifications based on morphological characters. Many of the important morphological characters (diplokaryon, sporophorous vesicle, and meiosis) appear to have multiple origins.