Your search keyword '"MICROSPORIDIOSIS"' showing total 1,333 results

1. Microsporidia persistence in host impairs epithelial barriers and increases chances of inflammatory bowel disease.

Author

Jin J, Tang Y, Cao L, Wang X, Chen Y, An G, Zhang H, Pan G, Bao J, and Zhou Z

Subjects

Humans, Animals, Mice, Caco-2 Cells, Dextran Sulfate adverse effects, Intestinal Mucosa, Mice, Inbred C57BL, Disease Models, Animal, Colitis chemically induced, Microsporidia, Inflammatory Bowel Diseases, Microsporidiosis

Abstract

Microsporidia are intracellular fungus-like pathogens and the infection symptoms include recurrent diarrhea and systematic inflammations. The major infection route of microsporidia is the digestive tract. Since microsporidia are hard to fully eliminate, the interactions and persistence of the pathogen within epithelium may modulate host susceptibility to digestive disorders. In this study, both in vitro and in vivo infection models were applied. The alterations of epithelial barrier integrity, permeability, and tight junction proteins after microsporidia infection were assessed on MDCK/Caco-2 monolayers. The fecal intestinal microbiota and tissue alterations after microsporidia infection were assessed on C57BL/6 mice. Moreover, the susceptibility to develop dextran sulfate sodium (DSS)-induced inflammatory bowel diseases (IBDs) was also analyzed by the murine infection model. The results demonstrated that microsporidia infection increased epithelium permeability, weakened wound healing capability, and destructed tight junction protein zonula occludens-1. Microsporidia infection also dysregulates intestinal microbiota. These impairing effects of microsporidia increased host vulnerability to develop enteritis as shown by the murine model of DSS-induced IBD. Our study is the first to elucidate molecular mechanisms of the damaging effects of microsporidia on host epithelium and pointed out the cryptic threats of latent microsporidia infection to public health as reflected by the increased chances of developing more severe diseases.IMPORTANCEMicrosporidia are widely present in nature and usually cause latent and persistent infections in hosts. Given the fact that the digestive tract is the major infection route, it is of great importance to explore the consequences of microsporidia infection on the intestinal epithelial barrier and the risks to the host. In this study, we demonstrated the destructing effects of microsporidium infection on epithelial barriers manifested as increased epithelial permeability, weakened wound healing ability, and disrupted tight junctions. Moreover, microsporidia made the host more susceptible to dextran sulfate sodium-induced inflammatory bowel disease. These findings provide new evidence for us to better understand and develop novel strategies for microsporidia prevention and disease control., Competing Interests: The authors declare no conflict of interest.

Published

2024

2. Screening of the Pandemic Response Box identifies anti-microsporidia compounds.

Author

Huang Q, Chen J, Pan G, and Reinke AW

Subjects

Animals, Humans, Caenorhabditis elegans, Albendazole pharmacology, Pandemics, Microsporidia physiology, Microsporidiosis

Abstract

Microsporidia are fungal obligate intracellular pathogens, which infect most animals and cause microsporidiosis. Despite the serious threat that microsporidia pose to humans and agricultural animals, few drugs are available for the treatment and control of microsporidia. To identify novel inhibitors, we took advantage of the model organism Caenorhabditis elegans infected with its natural microsporidian Nematocida parisii. We used this system to screen the Pandemic Response Box, a collection of 400 diverse compounds with known antimicrobial activity. After testing these compounds in a 96-well format at high (100 μM) and low (40 μM) concentrations, we identified four inhibitors that restored the ability of C. elegans to produce progeny in the presence of N. parisii. All four compounds reduced the pathogen load of both N. parisii and Pancytospora epiphaga, a C. elegans-infecting microsporidia related to human-infecting species. One of these compounds, a known inhibitor of a viral protease, MMV1006203, inhibited invasion and prevented the firing of spores. A bis-indole derivative, MMV1593539, decreased spore viability. An albendazole analog, MMV1782387, inhibited proliferation of N. parisii. We tested albendazole as well as 5 other analogs and observed that MMV1782387 was amongst the strongest inhibitors of N. parisii and displayed the least host toxicity. Our study further demonstrates the effectiveness of the C. elegans-N. parisii system for discovering microsporidia inhibitors and the compounds we identified provide potential scaffolds for anti-microsporidia drug development., Competing Interests: The authors have declared that no competing interests exist.
, (Copyright: © 2023 Huang et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

3. Microsporidian spores contain hibernating dimeric ribosomes.

Author

Weyer E and Weiss LM

Subjects

Spores, Fungal, Ribosomes, Microsporidia, Microsporidiosis

Published

2023

4. The microsporidian polar tube: origin, structure, composition, function, and application.

Author

Chen Y, Lv Q, Liao H, Xie Z, Hong L, Qi L, Pan G, Long M, and Zhou Z

Subjects

Humans, Biological Transport, Cell Wall, Cytoskeleton, Microsporidia, Microsporidiosis

Abstract

Microsporidia are a class of obligate intracellular parasitic unicellular eukaryotes that infect a variety of hosts, even including humans. Although different species of microsporidia differ in host range and specificity, they all share a similar infection organelle, the polar tube, which is also defined as the polar filament in mature spores. In response to the appropriate environmental stimulation, the spore germinates with the polar filament everted, forming a hollow polar tube, and then the infectious cargo is transported into host cells via the polar tube. Hence, the polar tube plays a key role in microsporidian infection. Here, we review the origin, structure, composition, function, and application of the microsporidian polar tube, focusing on the origin of the polar filament, the structural differences between the polar filament and polar tube, and the characteristics of polar tube proteins. Comparing the three-dimensional structure of PTP6 homologous proteins provides new insight for the screening of additional novel polar tube proteins with low sequence similarity in microsporidia. In addition, the interaction of the polar tube with the spore wall and the host are summarized to better understand the infection mechanism of microsporidia. Due to the specificity of polar tube proteins, they are also used as the target in the diagnosis and prevention of microsporidiosis. With the present findings, we propose a future study on the polar tube of microsporidia., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

5. High-throughput small molecule screen identifies inhibitors of microsporidia invasion and proliferation in C. elegans.

Author

Murareanu BM, Antao NV, Zhao W, Dubuffet A, El Alaoui H, Knox J, Ekiert DC, Bhabha G, Roy PJ, and Reinke AW

Subjects

Animals, Caenorhabditis elegans, Cell Proliferation, Humans, Biological Products, Dexrazoxane, Microsporidia, Microsporidiosis

Abstract

Microsporidia are a diverse group of fungal-related obligate intracellular parasites that infect most animal phyla. Despite the emerging threat that microsporidia represent to humans and agricultural animals, few reliable treatment options exist. Here, we develop a high-throughput screening method for the identification of chemical inhibitors of microsporidia infection, using liquid cultures of Caenorhabditis elegans infected with the microsporidia species Nematocida parisii. We screen a collection of 2560 FDA-approved compounds and natural products, and identify 11 candidate microsporidia inhibitors. Five compounds prevent microsporidia infection by inhibiting spore firing, whereas one compound, dexrazoxane, slows infection progression. The compounds have in vitro activity against several other microsporidia species, including those known to infect humans. Together, our results highlight the effectiveness of C. elegans as a model host for drug discovery against intracellular pathogens, and provide a scalable high-throughput system for the identification and characterization of microsporidia inhibitors., (© 2022. The Author(s).)

Published

2022

6. Anncaliia algerae Microsporidiosis Diagnosed by Metagenomic Next-Generation Sequencing, China.

Author

Liu C, Chen Q, Fu P, and Shi YY

Subjects

High-Throughput Nucleotide Sequencing, Humans, Metagenomics, Microsporidia genetics, Microsporidiosis diagnosis

Abstract

We report a case of Anncaliia algerae microsporidia infection in an immunosuppressed kidney transplant recipient in China. Light microscopy and transmission electron microscopy initially failed to identify A. algerae, which eventually was detected by metagenomic next-generation sequencing. Our case highlights the supporting role of metagenomic sequencing in early identification of uncommon pathogens.

Published

2022

7. The plot thickens: Ovipleistophora diplostomuri infects two additional species of Florida crayfish.

Author

Stratton CE, Moler P, Allain TW, Reisinger LS, Behringer DC, and Bojko J

Subjects

Animals, Astacoidea, Fishes, Florida, Phylogeny, Microsporidia, Microsporidiosis, Pansporablastina

Abstract

Ovipleistophora (Microsporidia) is a globally distributed genus of obligate parasites that infect fish, Crustacea, and trematodes. We report on two additional crayfish hosts, Procambarus pictus (Simms Creek, Florida) and Procambarus fallax (Santa Fe River, Florida), that exhibited signs of high-intensity microsporidian infection in the musculature. Sequence data (SSU) for the isolates were 99.79% and 99.97% similar to Ovipleistophora diplostomuri parasitizing Procambarus bivittatus. Additional screening of regional fish species (Lepomis macrochirus) revealed additional microsporidian diversity (Potaspora) but did not include Ovipleistophora. Detecting Clade V isolates in multiple host groups provides further evidence for trophic transmission among Clade V microsporidia., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

8. Metabarcoding reveals low prevalence of microsporidian infections in castor bean tick (Ixodes ricinus).

Author

Trzebny A, Liberska J, Slodkowicz-Kowalska A, and Dabert M

Subjects

Animals, Base Sequence, Cat Diseases parasitology, Cats, DNA Barcoding, Taxonomic, DNA, Fungal chemistry, DNA, Fungal isolation & purification, DNA, Ribosomal chemistry, Dog Diseases parasitology, Dogs, Electron Transport Complex IV chemistry, Female, Male, Microsporidia classification, Parks, Recreational, Phylogeny, Poland, Prevalence, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Tick Infestations parasitology, Tick Infestations veterinary, Arachnid Vectors microbiology, Ixodes microbiology, Microsporidia physiology

Abstract

Background: Microsporidia is a large group of eukaryotic obligate intracellular spore-forming parasites, of which 17 species can cause microsporidiosis in humans. Most human-infecting microsporidians belong to the genera Enterocytozoon and Encephalitozoon. To date, only five microsporidian species, including Encephalitozoon-like, have been found in hard ticks (Ixodidae) using microscopic methods, but no sequence data are available for them. Furthermore, no widespread screening for microsporidian-infected ticks based on DNA analysis has been carried out to date. Thus, in this study, we applied a recently developed DNA metabarcoding method for efficient microsporidian DNA identification to assess the role of ticks as potential vectors of microsporidian species causing diseases in humans., Methods: In total, 1070 (493 juvenile and 577 adult) unfed host-seeking Ixodes ricinus ticks collected at urban parks in the city of Poznan, Poland, and 94 engorged tick females fed on dogs and cats were screened for microsporidian DNA. Microsporidians were detected by PCR amplification and sequencing of the hypervariable V5 region of 18S rRNA gene (18S profiling) using the microsporidian-specific primer set. Tick species were identified morphologically and confirmed by amplification and sequencing of the shortened fragment of cytochrome c oxidase subunit I gene (mini-COI)., Results: All collected ticks were unambiguously assigned to I. ricinus. Potentially zoonotic Encephalitozoon intestinalis was identified in three fed ticks (3.2%) collected from three different dogs. In eight unfed host-seeking ticks (0.8%), including three males (1.1%), two females (0.7%) and three nymphs (0.7%), the new microsporidian sequence representing a species belonging to the genus Endoreticulatus was identified., Conclusions: The lack of zoonotic microsporidians in host-seeking ticks suggests that I. ricinus is not involved in transmission of human-infecting microsporidians. Moreover, a very low occurrence of the other microsporidian species in both fed and host-seeking ticks implies that mechanisms exist to defend ticks against infection with these parasites., (© 2022. The Author(s).)

Published

2022

9. The Function and Structure of the Microsporidia Polar Tube.

Author

Han B, Takvorian PM, and Weiss LM

Subjects

Animals, Cytoplasm, Humans, Phylogeny, Spores, Fungal chemistry, Microsporidia genetics, Microsporidia metabolism

Abstract

Microsporidia are obligate intracellular pathogens that were initially identified about 160 years ago. Current phylogenetic analysis suggests that they are grouped with Cryptomycota as a basal branch or sister group to the fungi. Microsporidia are found worldwide and can infect a wide range of animals from invertebrates to vertebrates, including humans. They are responsible for a variety of diseases once thought to be restricted to immunocompromised patients but also occur in immunocompetent individuals. The small oval spore containing a coiled polar filament, which is part of the extrusion and invasion apparatus that transfers the infective sporoplasm to a new host, is a defining characteristic of all microsporidia. When the spore becomes activated, the polar filament uncoils and undergoes a rapid transition into a hollow tube that will transport the sporoplasm into a new cell. The polar tube has the ability to increase its diameter from approximately 100 nm to over 600 nm to accommodate the passage of an intact sporoplasm and penetrate the plasmalemma of the new host cell. During this process, various polar tube proteins appear to be involved in polar tube attachment to host cell and can interact with host proteins. These various interactions act to promote host cell infection., (© 2022. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published

2022

10. Evaluation of the Bio-Evolution Microsporidia generic and typing real-time PCR assays for the diagnosis of intestinal microsporidiosis.

Author

Moniot M, Nourrisson C, Bonnin V, Damiani C, Argy N, Bonhomme J, Fréalle E, Angebault C, Debourgogne A, Sitterlé E, Flori P, Brunet J, Dalle F, Favennec L, and Poirier P

Subjects

Humans, Real-Time Polymerase Chain Reaction, Microsporidia genetics, Microsporidiosis diagnosis, Enterocytozoon genetics

Abstract

Cases of intestinal microsporidiosis infection are underestimated and affect both immunocompromized and immunocompetent patients. Real-time PCR is superseding microscopic examination for its diagnosis in medical analysis laboratories. However, few manufacturers include microsporidia in their PCR panel for the diagnosis of infectious gastroenteritis. Here, we evaluated the performances of the real-time PCR assays microsporidia generic and microsporidia typing (Bio-Evolution, France) on the Rotor-Gene Q real-time PCR cycler (Qiagen, France). We included 45 negative and 44 positive stool samples for Enterocytozoon bieneusi (n = 34, with various genotypes), Encephalitozoon intestinalis (n = 4), Encephalitozoon hellem (n = 4), and Encephalitozoon cuniculi (n = 2). We also studied a four-year survey of an inter-laboratory quality control program including 9 centers that used this commercial assay. Sensitivity and specificity of the microsporidia generic assay were 86.4% and 93.3%, respectively. Encephalitozoon hellem and Encephalitozoon cuniculi were detected by the microsporidia generic PCR assay but not by the microsporidia typing PCR assay. These results were consistent with the results of the inter-laboratory quality control program. In conclusion, Bio-Evolution Real-time PCR assays are useful tools for intestinal microsporidiosis, but negative results for microsporidia typing assays require supplementary analyses to confirm E. hellem or E. cuniculi infections., (© M. Moniot et al., published by EDP Sciences, 2022.)

Published

2022

11. Intestinal Microsporidia Infection in Leukemic Children: Microscopic and Molecular Detection.

Author

Shehab AY, Moneer EA, Allam AF, Khalil SS, and Tolba MM

Subjects

Child, Feces, Humans, Encephalitozoon, Enterocytozoon, Microsporidia, Microsporidiosis

Abstract

Background: Microsporidia infection was originally described as an immunocompromised associated pathogen. Limitations to correct microscopic diagnosis of microsporidia include size of the organism presenting a challenge even to a highly competent laboratory expert., Objective: The present study aimed to detect microsporidia infection among leukemic children. The performance of modified trichrome stain and PCR in the diagnosis of microsporidia was evaluated with further speciation., Methods: Stool samples of 100 leukemic children on chemotherapy were examined microscopically for microsporidia. DNA was extracted from all samples. Amplification was performed by conventional and nested PCR. Sequencing of amplified products was performed on unspeciated samples., Results: Microsporidia were detected in 23% of the children by MTS and 29% by PCR. The 29 positive samples were subjected to PCR for speciation. Enterocytozoon bieneusi was found to predominate in 20 cases, Encephalitozoon intestinalis in three cases, two cases had co-infection, and the remaining four samples were not amplified with either E. bieneusi or E. intestinalis specific primers. By DNA sequencing of the unspeciated samples, three samples shared high homology with Encephalitozoon hellem and one sample with Encephalitozoon cuniculi. Referring to PCR as a gold standard, MTS exhibited 72.4% sensitivity and 97.2% specificity with 90% accuracy. Among a number of studied variables, diarrhea and colic were significantly associated with microsporidia infection when diagnosed by either technique., Conclusion: The use of sensitive and discriminative molecular tools will contribute to determining the true prevalence of microsporidiosis and possibly their potential transmission source depending on species identification.

Published

2021

12. The largest meta-analysis on the global prevalence of microsporidia in mammals, avian and water provides insights into the epidemic features of these ubiquitous pathogens.

Author

Ruan Y, Xu X, He Q, Li L, Guo J, Bao J, Pan G, Li T, and Zhou Z

Subjects

Animals, Genotype, Geography, Humans, Microsporidia classification, Microsporidia genetics, Microsporidia pathogenicity, Prevalence, Risk Factors, Zoonoses parasitology, Birds parasitology, Global Health, Mammals parasitology, Microsporidia isolation & purification, Microsporidiosis epidemiology, Water parasitology, Zoonoses epidemiology

Abstract

Background: Microsporidia are obligate intracellular parasites that can infect nearly all invertebrates and vertebrates, posing a threat to public health and causing large economic losses to animal industries such as those of honeybees, silkworms and shrimp. However, the global epidemiology of these pathogens is far from illuminated., Methods: Publications on microsporidian infections were obtained from PubMed, Science Direct and Web of Science and filtered according to the Newcastle-Ottawa Quality Assessment Scale. Infection data about pathogens, hosts, geography and sampling dates were manually retrieved from the publications and screened for high quality. Prevalence rates and risk factors for different pathogens and hosts were analyzed by conducting a meta-analysis. The geographic distribution and seasonal prevalence of microsporidian infections were drawn and summarized according to sampling locations and date, respectively., Results: Altogether, 287 out of 4129 publications up to 31 January 2020 were obtained and met the requirements, from which 385 epidemiological data records were retrieved and effective. The overall prevalence rates in humans, pigs, dogs, cats, cattle, sheep, nonhuman primates and fowl were 10.2% [2429/30,354; 95% confidence interval (CI) 9.2-11.2%], 39.3% (2709/5105; 95% CI 28.5-50.1%), 8.8% (228/2890; 95% CI 5.1-10.1%), 8.1% (112/1226; 95% CI 5.5-10.8%), 16.6% (2216/12,175; 95% CI 13.5-19.8%), 24.9% (1142/5967; 95% CI 18.6-31.1%), 18.5% (1388/7009; 95% CI 13.1-23.8%) and 7.8% (725/9243; 95% CI 6.4-9.2%), respectively. The higher prevalence in pigs suggests that routine detection of microsporidia in animals should be given more attention, considering their potential roles in zoonotic disease. The highest rate was detected in water, 58.5% (869/1351; 95% CI 41.6-75.5%), indicating that water is an important source of infections. Univariate regression analysis showed that CD4+ T cell counts and the living environment are significant risk factors for humans and nonhuman primates, respectively. Geographically, microsporidia have been widely found in 92 countries, among which Northern Europe and South Africa have the highest prevalence. In terms of seasonality, the most prevalent taxa, Enterocytozoon bieneusi and Encephalitozoon, display different prevalence trends, but no significant difference between seasons was observed. In addition to having a high prevalence, microsporidia are extremely divergent because 728 genotypes have been identified in 7 species. Although less investigated, microsporidia coinfections are more common with human immunodeficiency virus and Cryptosporidium than with other pathogens., Conclusions: This study provides the largest-scale meta-analysis to date on microsporidia prevalence in mammals, birds and water worldwide. The results suggest that microsporidia are highly divergent, widespread and prevalent in some animals and water and should be further investigated to better understand their epidemic features.

Published

2021

13. Microscopic and PCR-based detection of microsporidia spores in human stool samples.

Author

Mena CJ, Barnes A, Castro G, Guasconi L, Burstein VL, Beccacece I, Paulin PC, Arneodo J, Carnevale S, Astudillo G, Cervi L, Theumer MG, and Chiapello LS

Subjects

Feces, Humans, Polymerase Chain Reaction, Spores, Fungal, Enterocytozoon genetics, Microsporidia genetics

Abstract

Microsporidia are obligate intracellular fungi with a remarkable ability to infect a wide range of invertebrate and vertebrate hosts. Namely, Enterocytozoon bieneusi is the most frequently microsporidia reported worldwide, and mainly associated with chronic diarrhea and wasting syndrome in AIDS patients. Microscopy and PCR-based detection techniques are effective for diagnosis and identification of species and genotypes; however, these methods should be standardized in each laboratory. In this study, we performed microscopy and nested PCR techniques with PCR product sequencing to detect E. bieneusi in human stool samples. These techniques, if applied together, might prove useful for diagnosis and future epidemiological studies of intestinal microsporidiosis in Argentina., (Copyright © 2020 Asociación Argentina de Microbiología. Publicado por Elsevier España, S.L.U. All rights reserved.)

Published

2021

14. A new method of metabarcoding Microsporidia and their hosts reveals high levels of microsporidian infections in mosquitoes (Culicidae).

Author

Trzebny A, Slodkowicz-Kowalska A, Becnel JJ, Sanscrainte N, and Dabert M

Subjects

Animals, DNA, Ribosomal, Phylogeny, Culicidae microbiology, DNA Barcoding, Taxonomic methods, Microsporidia genetics, Microsporidiosis

Abstract

DNA metabarcoding offers new perspectives, especially with regard to the high-throughput identification and diagnostics of pathogens. Microsporidia are an example of widely distributed, opportunistic and pathogenic microorganisms in which molecular identification is important for both environmental research and clinical diagnostics. We have developed a method for parallel detection of both microsporidian infection and the host species. We designed new primer sets: one specific for the classical Microsporidia (targeting the hypervariable V5 region of small subunit [ssu] rDNA), and a second one targeting a shortened fragment of the COI gene (standard metazoan DNA-barcode); both markers are well suited for next generation sequencing. Analysis of the ssu rDNA data set representing 607 microsporidian species (120 genera) indicated that the V5 region enables identification of >98% species in the data set (596/607). To test the method, we used microsporidians that infect mosquitoes in natural populations. Using mini-COI data, all field-collected mosquitoes were unambiguously assigned to seven species; among them almost 60% of specimens were positive for at least 11 different microsporidian species, including a new microsporidian ssu rDNA sequence (Microsporidium sp. PL01). Phylogenetic analysis showed that this species belongs to one of the two main clades in the Terresporidia. We found a high rate of microsporidian co-infections (9.4%). The numbers of sequence reads for the operational taxonomic units suggest that the occurrence of Nosema spp. in co-infections could benefit them; however, this observation should be retested using a more intensive host sampling. Our results show that DNA barcoding is a rapid and cost-effective method for deciphering sample diversity in greater resolution, including the hidden biodiversity that may be overlooked using classical methodology., (© 2020 John Wiley & Sons Ltd.)

Published

2020

15. Construction and heterologous overexpression of two chimeric proteins carrying outer hydrophilic loops of Vairimorpha ceranae and Nosema bombycis ATP/ADP carriers.

Author

Dolgikh VV, Timofeev SA, Zhuravlyov VS, and Senderskiy IV

Subjects

Fungal Proteins chemistry, Fungal Proteins metabolism, Microsporidia chemistry, Microsporidia metabolism, Mitochondrial ADP, ATP Translocases chemistry, Mitochondrial ADP, ATP Translocases genetics, Mitochondrial ADP, ATP Translocases metabolism, Nosema chemistry, Nosema metabolism, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins metabolism, Fungal Proteins genetics, Gene Expression, Microsporidia genetics, Nosema genetics, Recombinant Fusion Proteins genetics

Abstract

Microsporidia Nosema bombycis and Vairimorpha ceranae cause destructive epizootics of honey bees and silkworms. Insufficient efficiency of the antibiotic fumagillin against V. ceranae, its toxicity and the absence of effective methods of N. bombycis treatment demand the discovery of novel strategies to suppress infections of domesticated insects. RNA interference is one such novel treatment strategy. Another one implies that the intracellular development of microsporidia may be suppressed by single-chain antibodies (scFv fragments) against functionally important parasite proteins. Important components of microsporidian metabolism are non-mitochondrial, plastidic-bacterial ATP/ADP carriers. These membrane transporters import host-derived ATP and provide the capacity to pathogens for energy parasitism. Here, we analyzed membrane topology of four V. ceranae and three N. bombycis ATP/ADP transporters to construct two fusion proteins carrying their outer hydrophilic loops contacting with infected host cell cytoplasm. Interestingly, full-size genes of N. bombycis transporters may be derived from the Asian swallowtail Papilio xuthus genome sequencing project. Synthesis of the artificial genes was followed by overexpression of recombinant proteins in E. coli as insoluble inclusion bodies. The gene fragments encoding the loops of individual transporters were also effectively expressed in bacteria. The chimeric antigens may be used to construct immune libraries or select microsporidia-suppressing scFv fragments from synthetic, semisynthetic, naïve and immune antibody libraries. A further expression of such antibodies in insect cells may increase their resistance to microsporidial infections., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

16. Development of Anncaliia algerae (Microsporidia) in Drosophila melanogaster.

Author

Sokolova YY, Weidner E, and DiMario PJ

Subjects

Animals, Spores, Fungal growth & development, Drosophila melanogaster microbiology, Host Microbial Interactions, Microsporidia growth & development

Abstract

Representatives of the genus Anncaliia are known as natural parasites of dipteran and coleopteran insects, amphipod crustaceans, but also humans, primarily with immunodeficiency. Anncaliia algerae-caused fatal myositis is considered as an emergent infectious disease in humans. A. (=Nosema, Brachiola) algerae, the best studied species of the genus, demonstrates the broadest among microsporidia range of natural and experimental hosts, but it has never been propagated in Drosophila. We present ultrastructural analysis of development of A. algerae in visceral muscles and adipocytes of Drosophila melanogaster 2 wk after per oral experimental infection. We observed typical to Anncaliia spp. features of ultrastructure and cell pathology including spore morphology, characteristic extensions of the plasma membrane, and presence of "ridges" and appendages of tubular material at proliferative stages. Anncaliia algerae development in D. melanogaster was particularly similar to one of A. algerae and A.(Brachiola) vesicularum in humans with acute myositis. Given D. melanogaster is currently the most established genetic model, with a fully sequenced genome and easily available transgenic forms and genomic markers, a novel host-parasite system might provide new genetic tools to investigate host-pathogen interactions of A. algerae, as well to test antimicrosporidia drugs., (© 2019 International Society of Protistologists.)

Published

2020

17. Multimethodological Approach to Gastrointestinal Microsporidiosis in HIV-Infected Patients.

Author

Velásquez JN, di Risio C, Etchart C, Chertcoff AV, Astudillo OG, and Carnevale S

Subjects

AIDS-Related Opportunistic Infections etiology, Adult, Diarrhea etiology, Diarrhea microbiology, Feces microbiology, Female, Gastrointestinal Tract microbiology, Humans, Male, Microsporidia classification, Microsporidia genetics, Microsporidiosis etiology, Middle Aged, Young Adult, AIDS-Related Opportunistic Infections microbiology, HIV Infections complications, Microsporidia isolation & purification, Microsporidiosis microbiology

Abstract

Purpose: Microsporidiosis is an opportunistic infection that produces chronic diarrhoea and cholangiopathy in patients with AIDS, mainly caused by two species of microsporidia, Enterocytozoon bieneusi and Encephalitozon intestinalis. The aim of this work was to develop an integral system for the diagnosis of microsporidiosis of the intestine and biliary tract in HIV-infected patients, comprising microscopic and molecular techniques., Methods: The study population comprised 143 adult patients of both sexes with diagnosis of HIV infection, with chronic diarrhoea, and with or without HIV-associated cholangiopathy. Stool studies for microsporidia identification of spores were performed on each patient. A video esofagogastroduodenoscopy with biopsy collection was also carried out for routine histology and semi-thin sections stained with Azure II. Species identification was carried out by transmission electron microscopy and/or polymerase chain reaction for the species E. bieneusi and E. intestinalis., Results: Out of the 143 patients a total of 12.6% (n = 18) were infected with microsporidia. Microsporidia species identified in most cases was E. bieneusi (16/18 cases), followed by E. intestinalis (4/18), all of these last ones in coinfection with E. bieneusi., Conclusions: Clinical, imaging, microscopic and molecular analyses, when applied in a systematic and integrated approach, allow diagnosis and identification of microsporidia at species level in AIDS patients with chronic diarrhoea, and with or without HIV-associated cholangiopathy.

Published

2019

18. Microsporidian infections in the species complex Gammarus roeselii (Amphipoda) over its geographical range: evidence for both host-parasite co-diversification and recent host shifts.

Author

Quiles A, Bacela-Spychalska K, Teixeira M, Lambin N, Grabowski M, Rigaud T, and Wattier RA

Subjects

Amphipoda physiology, Animals, Female, Genes, rRNA, Genetic Variation, Male, Microsporidia genetics, Microsporidiosis, Phylogeny, Phylogeography, Species Specificity, Amphipoda parasitology, Host-Parasite Interactions, Microsporidia physiology

Abstract

Background: Microsporidians are obligate endoparasites infecting taxonomically diverse hosts. Both vertical (from mother to eggs) and horizontal (between conspecifics or between species) transmission routes are known. While the former may promote co-speciation and host-specificity, the latter may promote shifts between host species. Among aquatic arthropods, freshwater amphipod crustaceans are hosts for many microsporidian species. However, despite numerous studies, no general pattern emerged about host specificity and co-diversification. In south-eastern Europe, the gammarid Gammarus roeselii is composed of 13 cryptic lineages of Miocene to Pleistocene age but few genotypes of one lineage have spread postglacially throughout north-western Europe. Based on nearly 100 sampling sites covering its entire range, we aim to: (i) explore the microsporidian diversity present in G. roeselii and their phylogenetic relationships, especially in relation to the parasites infecting other Gammaridae; (ii) test if the host phylogeographical history might have impacted host-parasite association (e.g. co-diversifications or recent host shifts from local fauna)., Methods: We used part of the small subunit rRNA gene as source of sequences to identify and determine the phylogenetic position of the microsporidian taxa infecting G. roeselii., Results: Microsporidian diversity was high in G. roeselii with 24 detected haplogroups, clustered into 18 species-level taxa. Ten microsporidian species were rare, infecting a few individual hosts in a few populations, and were mostly phylogenetically related to parasites from other amphipods or various crustaceans. Other microsporidians were represented by widespread genera with high prevalence: Nosema, Cucumispora and Dictyocoela. Two contrasting host association patterns could be observed. First, two vertically transmitted microsporidian species, Nosema granulosis and Dictyocoela roeselum, share the pattern of infecting G. roeselii over most of its range and are specific to this host suggesting the co-diversification scenario. This pattern contrasted with that of Dictyocoela muelleri, the three species of Cucumispora, and the rare parasites, present only in the recently colonised region by the host. These patterns suggest recent acquisitions from local host species, after the recent spread of G. roeselii., Conclusions: Microsporidians infecting G. roeselii revealed two scenarios of host-parasite associations: (i) ancient associations with vertically transmitted parasites that probably co-diversified with their hosts, and (ii) host shifts from local host species, after the postglacial spread of G. roeselii.

Published

2019

19. A new microsporidium Percutemincola moriokae gen. nov., sp. nov. from Oscheius tipulae: A novel model of microsporidia-nematode associations.

Author

Nishikori K, Setiamarga DHE, Tanji T, Kuroda E, Shiraishi H, and Ohashi-Kobayashi A

Subjects

Animals, Caenorhabditis elegans microbiology, Disease Transmission, Infectious, Host-Parasite Interactions, Intestines microbiology, Japan, Microscopy, Electron, Microsporidia physiology, Phylogeny, Soil Microbiology, Spores, Fungal physiology, Spores, Fungal ultrastructure, Subcutaneous Tissue microbiology, Microsporidia classification, Nematoda microbiology

Abstract

Here, we describe a new microsporidium Percutemincola moriokae gen. nov., sp. nov., which was discovered in the intestinal and hypodermal cells of a wild strain of the nematode Oscheius tipulae that inhabits in the soil of Morioka, Iwate Prefecture, Japan. The spores of Pe. moriokae had an average size of 1.0 × 3.8 µm and 1.3 × 3.2 µm in the intestine and hypodermis, respectively, and electron microscopy revealed that they exhibited distinguishing features with morphological diversity in the hypodermis. Isolated spores were able to infect a reference strain of O. tipulae (CEW1) through horizontal transmission but not the nematode Caenorhabditis elegans. Upon infection, the spores were first observed in the hypodermis and then in the intestine the following day, suggesting a unique infectious route among nematode-infective microsporidia. Molecular phylogenetic analysis grouped this new species with the recently identified nematode-infective parasites Enteropsectra and Pancytospora forming a monophyletic sister clade to Orthosomella in clade IV, which also includes human pathogens such as Enterocytozoon and Vittaforma. We believe that this newly discovered species and its host could have application as a new model in microsporidia-nematode association studies.

Published

2018

20. MICROSPORIDIOSIS IN PEPPERMINT SHRIMP (DECAPODA: HIPPOLYTIDAE: LYSMATA SPP.).

Author

LaDouceur EEB and Murphy BG

Subjects

Animals, Host-Pathogen Interactions, Decapoda microbiology, Microsporidia physiology

Abstract

Microsporidia are a diverse, parasitic phylum closely related to fungi. They infect a broad range of host species and tissues. This report describes microsporidiosis infection in a captive, wild-caught peppermint shrimp ( Lysmata spp.). The animal was found dead in its enclosure approximately 5 days after molting. Grossly, the skeletal musculature was diffusely swollen, opaque, and pale tan to white. Histologically, skeletal myofibers were replaced by large aggregates of sporophorous vesicles containing up to eight spores and earlier stages of sporogony. Tissue inflammation was minimal. Spores had positive staining with Luna's, Giemsa, Fites acid fast, and Brown and Brenn Gram stains. Ultrastructurally, spores were ovoid with an exo- and endospore, lamellar polaroplast, and polar tube arranged in 9 to 14 basilar, bilayered coils with a straight, apical manubrium. Spores and earlier stages of sporogony were contained within sporophorous vesicles. This is the first report of microsporidiosis in a shrimp from the family Hippolytidae.

Published

2017

21. Morphology and phylogeny of Ameson portunus n. sp. (Microsporidia) infecting the swimming crab Portunus trituberculatus from China.

Author

Wang Y, Li XC, Fu G, Zhao S, Chen Y, Wang H, Chen T, Zhou J, and Fang W

Subjects

Animals, China, DNA, Ribosomal genetics, Microscopy, Electron, Transmission, Microsporidia genetics, Species Specificity, Spores, Protozoan ultrastructure, Brachyura parasitology, Microsporidia classification, Microsporidia ultrastructure, Phylogeny

Abstract

Ameson portunus n. sp. is a new microsporidian species that infects the skeletal muscle of Portunus trituberculatus, a pond-reared swimming crab from China. This parasite was characterized using morphological and molecular phylogenetic data. Light and transmission electron microscopy revealed that this microsporidian experienced disporogonic and polysporogonic (chain-like) life cycles. Mature uninucleate spores appeared ovoid, measured 1.4±0.06×1.0±0.07μm on ultrathin sections, and exhibited no dimorphism. The isofilar polar filament was coiled in 8-9 turns. Of these coils, 5-9 were arranged in large regular outer layers; the remaining coils (0-3 coils) were situated internally. According to phylogenetic analyses based on the small subunit (SSU) rDNA gene, A. portunus n. sp. belonged to the group comprising Ameson spp. and Nadelspora canceri. The result of comprehensive analysis of ultrastructural features, molecular phylogenetic data, host and geographical differences among known species supports the establishment of a new Ameson species for this parasite. Ameson portunus n. sp. is the first Ameson species described from the coasts of East Asia., (Copyright © 2017. Published by Elsevier GmbH.)

Published

2017

22. Molecular diagnosis of human microsporidian infections.

Author

Heyworth MF

Subjects

Humans, Polymerase Chain Reaction, Microsporidia isolation & purification, Microsporidiosis diagnosis, Molecular Diagnostic Techniques methods

Abstract

With the transformation of HIV infection from an acutely life-threatening disease into a chronic condition (as a consequence of the development of effective antiretroviral medication), the perceived clinical importance of diagnosing and treating microsporidian infections diminished, at least in industrialized countries. In locales where effective antiretroviral therapy is not available, as well as in patients with immunodeficiency for reasons other than HIV infection (e.g., following organ transplantation), and in individuals with suspected ocular microsporidiosis, diagnosing microsporidian infections remains a clinical priority. Molecular techniques can readily distinguish different species of microsporidia. At least one molecular diagnostic platform that can detect the intestinal parasites Encephalitozoon intestinalis and Enterocytozoon bieneusi is commercially available., (Published by Oxford University Press on behalf of Royal Society of Tropical Medicine and Hygiene 2017. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2017

23. The common neural parasite Pseudoloma neurophilia causes altered shoaling behaviour in adult laboratory zebrafish (Danio rerio) and its implications for neurobehavioural research.

Author

Spagnoli S, Sanders J, and Kent ML

Subjects

Animals, Microsporidiosis parasitology, Social Behavior, Behavior, Animal physiology, Fish Diseases parasitology, Microsporidia physiology, Microsporidiosis veterinary, Movement, Zebrafish

Published

2017

24. Cryptic microsporidian parasites differentially affect invasive and native Artemia spp.

Author

Rode NO, Lievens EJ, Segard A, Flaven E, Jabbour-Zahab R, and Lenormand T

Subjects

Animals, DNA, Fungal chemistry, DNA, Fungal genetics, Molecular Sequence Data, Prevalence, Sequence Analysis, DNA, Artemia microbiology, Microsporidia isolation & purification

Abstract

We investigated the host specificity of two cryptic microsporidian species (Anostracospora rigaudi and Enterocytospora artemiae) infecting invasive (Artemia franciscana) and native (Artemia parthenogenetica) hosts in sympatry. Anostracospora rigaudi was on average four times more prevalent in the native host, whereas E. artemiae was three times more prevalent in the invasive host. Infection with An. rigaudi strongly reduced female reproduction in both host species, whereas infection with E. artemiae had weaker effects on female reproduction. We contrasted microsporidian prevalence in native A. franciscana populations (New World) and in both invaded and non-invaded Artemia populations (Old World). At a community level, microsporidian prevalence was twice as high in native compared with invasive hosts, due to the contrasting host-specificity of An. rigaudi and E. artemiae. At a higher biogeographical level, microsporidian prevalence in A. franciscana did not differ between the invaded populations and the native populations used for the introduction. Although E. artemiae was the only species found both in New and Old World populations, no evidence of its co-introduction with the invasive host was found in our experimental and phylogeographic tests. These results suggest that the success of A. franciscana invasion is probably due to a lower susceptibility to virulent microsporidian parasites rather than to decreased microsporidian prevalence compared with A. parthenogenetica or to lower microsporidian virulence in introduced areas., (Published by Elsevier Ltd.)

Published

2013

25. Microsporidiasis.

Author

Ashfaq A and White AC Jr

Subjects

Animals, Humans, Microsporidia pathogenicity, Microsporidiosis diagnosis, Microsporidiosis parasitology, Microsporidiosis therapy

Abstract

Microsporidia are obligate intracellular spore-forming organisms. Several species of microsporidia cause human disease, mainly in immunocompromised hosts. The spectrum of disease varies from diarrhea, keratoconjunctivitis to disseminated infection involving multiple organs. CNS disease is a rare manifestation usually seen in compromised hosts as part of a disseminated infection. Only 12 cases of CNS microsporidiosis have been reported in the literature. Clinically, they usually present with signs and symptoms of encephalitis and seizures. Diagnosis often requires brain biopsy, but spores can occasionally be found in other sites. Albendazole and fumagillin have been successfully used in treating microsporidiosis at other sites, but their role in CNS infection is unclear., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

26. Ultrastructural characterization and comparative phylogenetic analysis of new microsporidia from Siberian mosquitoes: evidence for coevolution and host switching.

Author

Andreadis TG, Simakova AV, Vossbrinck CR, Shepard JJ, and Yurchenko YA

Subjects

Animals, DNA, Protozoan, DNA, Ribosomal, Evolution, Molecular, Larva parasitology, Microsporidia pathogenicity, Phylogeny, Sequence Analysis, DNA, Siberia, Spores ultrastructure, Culicidae parasitology, Host Specificity physiology, Microsporidia genetics, Microsporidia ultrastructure, Microsporidiosis

Abstract

A survey of mosquito larvae infected with microsporidia was conducted from 2005 to 2008 in the Tomsk, Kemerovo and Novosibirsk regions of western Siberia, Russia. Twenty-one morphologically and genetically unique species of microsporidia were isolated from nine species of Anopheles, Aedes, Culex and Ochlerotatus mosquitoes including: (1) 14 proposed new species of Amblyospora (A. bakcharia, A. baritia, A. bogashovia, A. chulymia, A. hristinia, A. jurginia, A. kazankia, A. mavlukevia, A. mocrushinia, A. modestium, A. salairia, A. severinia, A. shegaria, and A. timirasia); (2) a newly proposed genus and species, Novothelohaniaovalae and; (3) six species of Amblyospora (A. flavescens, A. kolarovi, A. rugosa), Parathelohania (P. divulgata and P. tomski) and Trichoctosporea (T. pygopellita) from which gene sequences had not been previously obtained. Detailed ultrastructure of meiospores revealed unique cytological features associated with the length, arrangement and ratio of broad to narrow coils of the polar filament, comparative thickness of the exospore and endospore, and overall size of each species reaffirming their value in distinguishing taxonomic relationships. SSU rDNA sequences obtained from each species of microsporidia were unique when compared with GenBank entries. Phylogenetic trees constructed by Maximum Parsimony, Maximum Likelihood and Neighbor Joining analyses yielded similar topologies with a high degree of congruence between parasite and host at the generic level. Species that parasitize Aedes/Ochlerotatus and Culex mosquitoes segregate into distinct monophyletic groupings mirroring their host phylogeny, while species from Anopheles mosquitoes group as a sister clade basal to the entire group of mosquito-parasitic microsporidia as their Anopheles hosts cluster as a sister clade to the entire group of culicine mosquitoes. This provides strong evidence for host-parasite coevolution by descent at the generic level and limited host lineage switching between unrelated taxa. Among parasites of Aedes/Ochlerotatus and Anopheles mosquitoes, we found several instances where a single mosquito species serves as a host for two or more related species of microsporidia, an observation consistent with host switching and independent parasite speciation. Among the microsporidian parasites of Culex mosquitoes, we found only one parasite per host indicating a higher degree of host specificity and less host switching among parasites of this genus. Findings suggest a degree of host-parasite co-speciation with host switching occurring occasionally when the "normal" host is unavailable in the aquatic ecosystem. Frequency of host switching seems to be occurring in proportion to host relatedness and does not cross generic boundaries in this system., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

27. Budding: a new stage in the development of Chytridiopsis typographi (Zygomycetes: Microsporidia).

Author

Tonka T, Weiser J Jr, and Weiser J

Subjects

Animals, Coleoptera parasitology, Microscopy, Electron, Transmission, Microsporidia ultrastructure, Microsporidiosis, Life Cycle Stages physiology, Microsporidia growth & development

Abstract

Chytridiopsis typographi Weiser, 1954, the microsporidian pathogen of the spruce bark beetle, Ips typographus L. (Coleoptera: Scolytidae), has an early developmental period with plurinucleate mother cells, each of which produces a single bud. The globular bud is connected with the mother cell by a collar and the cellular constituents are pushed to the distant end of the bud. Both the mother cell and the bud continue to develop; the bud then separates from the mother cell and grows to produce a cell of the same type. Both cells then continue sporogonial development and produce sporophorous vesicles with 16-32 spores. The process of a single mother cell producing a single bud that grows to an identical stage is new in the development of C. typographi and has no analogy in other Microsporidia., ((c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

28. [Microsporidiosis in the wax moth Galleria mellonella (Lepidoptera: Pyralidae) caused by Vairimorpha ephestiae (Microsporidia: Burenellidae)].

Author

Vorontsova IaL, Tokarev IuS, Sokolova IuIa, and Glupov VV

Subjects

Animals, Cytoplasmic Granules pathology, Fat Body parasitology, Hemolymph parasitology, Host-Parasite Interactions, Intestines parasitology, Larva parasitology, Microsporidia physiology, Microsporidiosis, Salivary Glands parasitology, Spores, Protozoan pathogenicity, Temperature, Virulence, Lepidoptera parasitology, Microsporidia pathogenicity

Abstract

An experimental microsporidiosis of the wax moth caterpillars from laboratory population had been caused by oral infecting of early stages larvae and by intracavity injections of the spores of the microsporidian species Vairimorpha ephestiae. Peculiarities of microsporidiosis proceeding, manifestations of host defence reactions, and also an effect of the temperature of caterpillars cultivation and conditions of spores keeping on liability of the insects to the infection were studied. The effect of the microsporidia on the host organism was the early death or the delay of larvae development, but in several cases external manifestations of the effect of the parasite on the host were absent. The development of the parasites from the moment of infecting to the appearing of the mature spores congestions in the host organism proceeded 6 days. Microsporidia invaded insect fat body and caused its hypertrophy and disappearance of lipid granules. In the intestine and salivary glands microsporidia were not observed in the period from 6 to 16 day of the development. On the final stage of microsporidiosis the all contents of fatty tissue cells were replaced by spores of microsporidia. Under microscope only diplocaryotic spores of the Nozema type had been found in infected and died specimens, but not octospores. The spores threw out polar tubes under the change of pH in incubating solution from neutral to alkaline. The effects of microsporidiosis on the wax moth haemolymph were the increased rate of prohaemocytes, appearing of multinuclear free-circulating cells at 6 day after infection, and suppression of the reaction of haemolymph melanization with the mass sporogenesis of the parasite. The characteristic symptom of the wax moth microsporidiosis had been revealed, accumulation of black points and small spots of irregular form under cuticle ("reaction of attretization"). Increase of the temperature of insect cultivation up to 32 degrees C during 3 days after infection contributed to the full deliverance of the insects from the infection in first and second generations. It can be considered as a method of treatment of wax moth laboratory colonies from microsporidiosis. Oral infection of III and IV stage caterpillars by the spores being kept during 3-6 months under 4 degrees C in form of water suspension caused the death of 63.0-61.5 and 91% of caterpillars being cultivated under 25 and 21 degrees C respectively. Under the temperature of cultivation equal 30 degrees C the mortality did not differ from the control sample (8-10%). The spores extracted from dried bodies of caterpillars lost their vitality. It was demonstrated by the test on infectious ability in vivo and by acridine orange staining. This host-parasite system appears to be perspective in investigations of resistance mechanisms in insects and immunosuppressive features of entomopathogen microsporidia.

Published

2004

29. Exploring the interactions between Nosema ceranae infection and the honey bee gut microbiome.

Author

Lau, Edmund, Maccaro, Jessica, McFrederick, Quinn, and Nieh, James

Subjects

Gilliamella, Nosema ceranae, Microbiome and disease resistance, Microsporidia, Bees, Animals, Nosema, Gastrointestinal Microbiome, Microsporidiosis, Spores, Fungal, Host-Pathogen Interactions

Abstract

Managed colonies of the European honey bee, Apis mellifera, have faced considerable losses in recent years. A widespread contributing factor is a microsporidian pathogen, Nosema ceranae, which occurs worldwide, is increasingly resistant to antibiotic treatment, and can alter the hosts immune response and nutritional uptake. These obligate gut pathogens share their environment with a natural honey bee microbiome whose composition can affect pathogen resistance. We tested the effect of N. ceranae infection on this microbiome by feeding 5 day-old adult bees that had natural, fully developed microbiomes with live N. ceranae spores (40,000 per bee) or a sham inoculation, sterile 2.0 M sucrose solution. We caged and reared these bees in a controlled lab environment and tracked their mortality over 12 d, after which we dissected them, measured their infection levels (gut spore counts), and analyzed their microbiomes. Bees fed live spores had two-fold higher mortality by 12 d and 36.5-fold more spores per bee than controls. There were also strong colony effects on infection levels, and 9% of spore-inoculated bees had no spore counts at all (defined as fed-spores-but-not-infected). Nosema ceranae infection had significant but subtle effects on the gut microbiomes of experimentally infected bees, bees with different infection levels, and fed-spores-but-not-infected vs. bees with gut spores. Specific bacteria, including Gilliamella ASVs, were positively associated with infection, indicating that multiple strains of core gut microbes either facilitate or resist N. ceranae infection. Future studies on the interactions between bacterial, pathogen, and host genotypes would be illuminating.

Published

2024

30. Increased levels of anti-Encephalitozoon intestinalis antibodies in patients with colorectal cancer.

Author

Nourrisson, Céline, Moniot, Maxime, Vercruysse, Leslie, Bonnin, Virginie, Pereira, Bruno, Barnich, Nicolas, Bonnet, Mathilde, Jary, Marine, Pezet, Denis, Gagnière, Johan, and Poirier, Philippe

Subjects

*RECOMBINANT proteins, *COLORECTAL cancer, *PROGNOSIS, *MICROSPORIDIA, *MICROSPORIDIOSIS

Abstract

Background: The prevalence of microsporidiosis in the general population, or within specific groups of individuals/patients, is largely underestimated. The absence of specific seroprevalence tools limits knowledge of the epidemiology of these opportunistic pathogens, although known since the 1980s. Since microsporidia hijack the machinery of its host cell and certain species multiply within intestinal cells, a potential link between the parasite and colorectal cancer (CRC) has been suggested. Methodology/principal findings: To explore a potential epidemiological link between microsporidia and CRC, we evaluated the seroprevalence of Encephalitozoon intestinalis among CRC patients and healthy subjects using ELISA assays based on two recombinant proteins, namely rEiPTP1 and rEiSWP1, targeting polar tube and spore wall proteins. ELISA were performed in 141 CRC patients and 135 healthy controls. Patients with CRC had significantly higher anti-rEiPTP1 IgG levels than subjects in the control group. Anti-rEiPTP1 IgG, anti-rEiSWP1 IgG and anti-rEiPTP1 IgA levels were significantly increased among men with CRC compared to healthy men. Women with CRC who had died had higher rEiSWP1 IgG levels than those who were still alive. Conclusions/Significance: These higher antibody levels against microsporidia in patients with CRC suggest a relationship between microsporidia and pathophysiology of CRC. Author summary: The role of infectious agents in the occurrence of cancer is increasingly studied. Microsporidia are pathogens that can cause intestinal damage leading to severe diarrhea in humans. Data previously published would allow to consider a role of microsporidia in the occurrence of colorectal cancer. Our objective here was to provide epidemiological data concerning the association of microsporidia and cancer, which will be additional arguments that can justify in-depth work to study a potential causal link. To do this, we have developed tests to detect antibodies directed against a species of microsporidia, Encephalitozoon intestinalis. Our results show higher levels of antibodies against E. intestinalis among patients with colorectal cancer, compared to individuals without cancer, particularly in men. We also found that levels of certain antibodies were lower in women who survived cancer compared to those who died, possibly suggesting that this is a prognostic marker. All of these results support an epidemiological link between microsporidia, or at least certain species, and colon carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

31. Nosema bombycis: A remarkable unicellular parasite infecting insects.

Author

Huang, Qingyuan, Hu, Wanying, Meng, Xianzhi, Chen, Jie, and Pan, Guoqing

Subjects

*WHOLE genome sequencing, *MOLECULAR evolution, *MICROSPORIDIA, *MICROSPORIDIOSIS, *SILKWORMS

Abstract

Microsporidia are opportunistic fungal‐like pathogens that cause microsporidiosis, which results in significant economic losses and threatens public health. Infection of domesticated silkworms by the microsporidium Nosema bombycis causes pébrine disease, for which this species of microsporidia has received much attention. Research has been conducted extensively on this microsporidium over the past few decades to better understand its infection, transmission, host–parasite interaction, and detection. Several tools exist to study this species including the complete genome sequence of N. bombycis. In addition to the understanding of N. bombycis being important for the silkworm industry, this species has become a model organism for studying microsporidia. Research on biology of N. bombycis will contribute to the development of knowledge regarding microsporidia and potential antimicrosporidia drugs. Furthermore, this will provide insight into the molecular evolution and functioning of other fungal pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

32. Independent and interactive effects of diet and entomopathogenic microsporidia on an outbreaking forest insect defoliator.

Author

Flaherty, Leah, Preti, Flavio, Ishangulyyeva, Guncha, Erbilgin, Nadir, Whidden, Taylar, and Evenden, Maya

Subjects

*FOREST insects, *MICROSPORIDIOSIS, *MICROSPORIDIA, *DIET, *POPULUS tremuloides, *INSECT nematodes, *PLANT dispersal

Abstract

Insect herbivore diet mediates interactions with entomopathogens, yet this is relatively unexplored for microsporidia. Here, we examine a diet‐mediated tri‐trophic interaction between an outbreaking forest defoliator, forest tent caterpillar (FTC) Malacosoma disstria Hübner and Nosema sp. microsporidia.We conducted two experiments where diet quality was manipulated by incorporating lyophilized aspen (Populus tremuloides Michaux) foliage into an artificial diet, which was compared to a standard artificial diet. Diet quantity varied between fully fed and partially starved conditions, simulating an outbreak scenario. Microsporidia infection occurred naturally or was induced via experimental inoculation. We assessed FTC survival, microsporidia infection and load, and sublethal effects of treatments on FTC traits.Plant secondary metabolite concentrations in aspen‐augmented diets varied between experiments. In Experiment 1, the aspen‐augmented diet contained lyophilized aspen foliage with low concentrations of secondary metabolites, which increased FTC survival and reduced microsporidia infection. Diet quality and infection load also interactively influenced adult wing traits in Experiment 1. In Experiment 2, the aspen‐augmented diet contained lyophilized aspen foliage with higher concentrations of secondary metabolites, which negatively affected FTC. No diet‐mediated interactions with microsporidia were observed in Experiment 2.Diet quality (Experiments 1 and 2), diet quantity (Experiment 2) and microsporidia infection (Experiments 1 and 2) directly influenced FTC survival and/or had sublethal effects on FTC that may have cascading effects on population dynamics and dispersal.We demonstrated that diet quality can mediate interactions between FTC and microsporidia, but these interactions depend on the defensive chemistry of the FTC diet. To our knowledge, this is the first study to report diet‐mediated interactions between an outbreaking forest pest and microsporidia and one of only a few studies to examine this tri‐trophic interaction among Lepidoptera. [ABSTRACT FROM AUTHOR]

Published

2024

33. Endoparasite Infections in Captive Inland Bearded Dragons (Pogona vitticeps) in Italy.

Author

Guardone, Lisa, Marigliano, Alessandro, Mancianti, Francesca, and Perrucci, Stefania

Subjects

BEARDS, MICROSPORIDIOSIS, CRYPTOSPORIDIUM, ENDOPARASITES, SYMPTOMS, PROTOZOA

Abstract

The inland bearded dragon (Pogona vitticeps) is a lizard species commonly kept as a pet worldwide. Endoparasites are among the most important pathogens affecting bearded dragons. The aim of this study was to evaluate the endoparasites in captive P. vitticeps in Italy. Faecal samples from 30 P. vitticeps were analysed by fresh faecal smears, flotation tests, the Mini-FLOTAC technique, and a rapid immunoassay to detect Cryptosporidium spp. To search for microsporidia, PCR and sequencing were performed on the faecal samples. Data were statistically analysed. The overall positivity rate for endoparasites was 83.3% (25/30). The identified endoparasites were oxyurids (17/30, 56.7%), Isosospora amphiboluri (13/30, 43.3%), Encephalitozoon pogonae (4/18, 22.22%), and Cryptosporidium sp. (1/30, 3.33%). The positivity for protozoa was significantly higher in juveniles compared to adults. Moreover, the frequency of clinical signs was significantly higher in the positive animals. The results obtained here emphasize the importance of regular veterinary examinations of captive P. vitticeps, aimed at the diagnosis, treatment, and control of endoparasites. This study is one of the largest surveys on microsporidia infections in living bearded dragons, suggesting that E. pogonae may be widespread in this lizard. [ABSTRACT FROM AUTHOR]

Published

2024

34. Conservation of Nematocida microsporidia gene expression and host response in Caenorhabditis nematodes.

Author

Wan, Yin, Reinke, Aaron, and Troemel, Emily

Subjects

Animals, Caenorhabditis elegans, Microsporidia, Caenorhabditis, Microsporidiosis, Gene Expression

Abstract

Microsporidia are obligate intracellular parasites that are known to infect most types of animals. Many species of microsporidia can infect multiple related hosts, but it is not known if microsporidia express different genes depending upon which host species is infected or if the host response to infection is specific to each microsporidia species. To address these questions, we took advantage of two species of Nematocida microsporidia, N. parisii and N. ausubeli, that infect two species of Caenorhabditis nematodes, C. elegans and C. briggsae. We performed RNA-seq at several time points for each host infected with either microsporidia species. We observed that Nematocida transcription was largely independent of its host. We also observed that the host transcriptional response was similar when infected with either microsporidia species. Finally, we analyzed if the host response to microsporidia infection was conserved across host species. We observed that although many of the genes upregulated in response to infection are not direct orthologs, the same expanded gene families are upregulated in both Caenorhabditis hosts. Together our results describe the transcriptional interactions of Nematocida infection in Caenorhabditis hosts and demonstrate that these responses are evolutionarily conserved.

Published

2022

35. What is your diagnosis? A blood film and saliva direct smear from two inland bearded dragons (Pogona vitticeps).

Author

Azevedo, Carolina, Rassin, Alisa, Brenner, Emily E., Wellehan, James F. X., Cray, Carolyn, and Stacy, Nicole I.

Subjects

BEARDS, FUNGAL spores, SALIVA, DIAGNOSIS, BLOOD cell count, MICROSPORIDIOSIS

Abstract

This article discusses two cases of microsporidial infection in bearded dragons. The first case involved a 4-year-old male dragon with symptoms of hematochezia, lethargy, and dehydration. The second case involved a 6-month-old female dragon with symptoms of lethargy, inappetence, and hypersalivation. Both cases showed leukocytosis and toxic change in the blood, and cytologic evaluation revealed the presence of microsporidia. The article highlights the importance of cytology and PCR in diagnosing microsporidial infections in bearded dragons. Further research is needed to understand the epidemiology of this organism. [Extracted from the article]

Published

2024

36. Microsporidia MB in the primary malaria vector Anopheles gambiae sensu stricto is avirulent and undergoes maternal and horizontal transmission.

Author

Nattoh, Godfrey, Onyango, Brenda, Makhulu, Edward Edmond, Omoke, Diana, Ang'ang'o, Lilian Mbaisi, Kamau, Luna, Gesuge, Maxwell Machani, Ochomo, Eric, and Herren, Jeremy Keith

Subjects

*INSECTICIDE resistance, *ANOPHELES gambiae, *MICROSPORIDIA, *FEMALES, *MICROSPORIDIOSIS, *MALARIA, *POLYMERASE chain reaction

Abstract

Background: The demonstration that the recently discovered Anopheles symbiont Microsporidia MB blocks malaria transmission in Anophelesarabiensis and undergoes vertical and horizontal transmission suggests that it is a promising candidate for the development of a symbiont-based malaria transmission-blocking strategy. The infection prevalence and characteristics of Microsporidia MB in Anopheles gambiae sensu stricto (s.s.), another primary vector species of malaria in Kenya, were investigated. Methods: Field-collected females were confirmed to be Microsporidia MB-positive after oviposition. Egg counts of Microsporidia MB-infected and non-infected individuals were used to infer the effects of Microsporidia MB on fecundity. The time to pupation, adult sex ratio and survival were used to determine if Microsporidia MB infection has similar characteristics in the host mosquitoes An. gambiae and An. arabiensis. The intensity of Microsporidia MB infection in tissues of the midgut and gonads, and in carcasses, was determined by quantitative polymerase chain reaction. To investigate horizontal transmission, virgin males and females that were either Microsporidia MB-infected or non-infected were placed in standard cages for 48 h and allowed to mate; transmission was confirmed by quantitative polymerase chain reaction targeting Microsporidia MB genes. Results: Microsporidia MB was found to naturally occur at a low prevalence in An. gambiae s.s. collected in western Kenya. Microsporidia MB shortened the development time from larva to pupa, but other fitness parameters such as fecundity, sex ratio, and adult survival did not differ between Microsporidia MB-infected and non-infected hosts. Microsporidia MB intensities were high in the male gonadal tissues. Transmission experiments indicated that Microsporidia MB undergoes both maternal and horizontal transmission in An. gambiae s.s. Conclusions: The findings that Microsporidia MB naturally infects, undergoes maternal and horizontal transmission, and is avirulent in An. gambiae s.s. indicate that many of the characteristics of its infection in An. arabiensis hold true for the former. The results of the present study indicate that Microsporidia MB could be developed as a tool for the transmission-blocking of malaria across different Anopheles species. [ABSTRACT FROM AUTHOR]

Published

2023

37. Non-coding RNAs identification and regulatory networks in pathogen-host interaction in the microsporidia congenital infection.

Author

Shen, Zigang, Yang, Qiong, Luo, Lie, Li, Tangxin, Ke, Zhuojun, Li, Tian, Chen, Jie, Meng, Xianzhi, Xiang, Heng, Li, Chunfeng, Zhou, Zeyang, Chen, Ping, and Pan, Guoqing

Subjects

*CIRCULAR RNA, *MICROSPORIDIOSIS, *NON-coding RNA, *CONGENITAL disorders, *LINCRNA, *VERTICAL transmission (Communicable diseases)

Abstract

Background: The interaction networks between coding and non-coding RNAs (ncRNAs) including long non-coding RNA (lncRNA), covalently closed circular RNA (circRNA) and miRNA are significant to elucidate molecular processes of biological activities and interactions between host and pathogen. Congenital infection caused by vertical transmission of microsporidia N. bombycis can result in severe economic losses in the silkworm-feeding industry. However, little is known about ncRNAs that take place in the microsporidia congenital infection. Here we conducted whole-transcriptome RNA-Seq analyses to identify ncRNAs and regulatory networks for both N. bombycis and host including silkworm embryos and larvae during the microsporidia congenital infection. Results: A total of 4,171 mRNAs, 403 lncRNA, 62 circRNAs, and 284 miRNAs encoded by N. bombycis were identified, among which some differentially expressed genes formed cross-talk and are involved in N. bombycis proliferation and infection. For instance, a lncRNA/circRNA competing endogenous RNA (ceRNA) network including 18 lncRNAs, one circRNA, and 20 miRNAs was constructed to describe 14 key parasites genes regulation, such as polar tube protein 3 (PTP3), ricin-B-lectin, spore wall protein 4 (SWP4), and heat shock protein 90 (HSP90). Regarding host silkworm upon N. bombycis congenital infection, a total of 14,889 mRNAs, 3,038 lncRNAs, 19,039 circRNAs, and 3,413 miRNAs were predicted based on silkworm genome with many differentially expressed coding and non-coding genes during distinct developmental stages. Different species of RNAs form interacting network to modulate silkworm biological processes, such as growth, metamorphosis and immune responses. Furthermore, a lncRNA/circRNA ceRNA network consisting of 140 lncRNAs, five circRNA, and seven miRNAs are constructed hypothetically to describe eight key host genes regulation, such as Toll-6, Serpin-6, inducible nitric oxide synthase (iNOS) and Caspase-8. Notably, cross-species analyses indicate that parasite and host miRNAs play a vital role in pathogen-host interaction in the microsporidia congenital infection. Conclusion: This is the first comprehensive pan-transcriptome study inclusive of both N. bombycis and its host silkworm with a specific focus on the microsporidia congenital infection, and show that ncRNA-mediated regulation plays a vital role in the microsporidia congenital infection, which provides a new insight into understanding the basic biology of microsporidia and pathogen-host interaction. [ABSTRACT FROM AUTHOR]

Published

2023

38. Genomic and phenotypic evolution of nematode-infecting microsporidia.

Author

Wadi, Lina, El Jarkass, Hala Tamim, Tran, Tuan D., Islah, Nizar, Luallen, Robert J., and Reinke, Aaron W.

Subjects

*MICROSPORIDIA, *MICROSPORIDIOSIS, *PHENOTYPES, *GENE families, *INTRACELLULAR pathogens, *CAENORHABDITIS elegans, *PARASITES

Abstract

Microsporidia are a large phylum of intracellular parasites that can infect most types of animals. Species in the Nematocida genus can infect nematodes including Caenorhabditis elegans, which has become an important model to study mechanisms of microsporidia infection. To understand the genomic properties and evolution of nematode-infecting microsporidia, we sequenced the genomes of nine species of microsporidia, including two genera, Enteropsectra and Pancytospora, without any previously sequenced genomes. Core cellular processes, including metabolic pathways, are mostly conserved across genera of nematode-infecting microsporidia. Each species encodes unique proteins belonging to large gene families that are likely used to interact with host cells. Most strikingly, we observed one such family, NemLGF1, is present in both Nematocida and Pancytospora species, but not any other microsporidia. To understand how Nematocida phenotypic traits evolved, we measured the host range, tissue specificity, spore size, and polar tube length of several species in the genus. Our phylogenetic analysis shows that Nematocida is composed of two groups of species with distinct traits and that species with longer polar tubes infect multiple tissues. Together, our work details both genomic and trait evolution between related microsporidia species and provides a useful resource for further understanding microsporidia evolution and infection mechanisms. Author summary: Microsporidia are microbial parasites that can infect many animals. Nematodes have become a useful system to study microsporidia as these animals are commonly infected by microsporidia and these infections can be easily studied in a laboratory environment. To better understand how microsporidia evolve and change their properties as they infect different hosts, we sequenced the genomes of nine microsporidia species which infect nematodes. We found that metabolic pathways were mostly conserved between different clades of these species. Surprisingly, we found a family of proteins predicted to facilitate host interactions that is present in two distinct genera. We also determined the hosts and tissues that these microsporidia can infect as well as morphological properties of the microsporidia. We show that these properties are quite variable in related microsporidia species. Our results allow insight into the evolution of microsporidia and provide a resource for studying microsporidia infections in nematodes. [ABSTRACT FROM AUTHOR]

Published

2023

39. Global prevalence and genotype distribution of Microsporidia spp. in various consumables: a systematic review and meta-analysis.

Author

Rezaeian, Sanaz, Taghipour, Ali, Bahadory, Saeed, Mogharab, Vahid, and Abdoli, Amir

Subjects

*MICROSPORIDIOSIS, *MICROSPORIDIA, *MIXED infections, *GENOTYPES, *INFECTION prevention

Abstract

Water and food sources play a major role in the distribution and transfer of microsporidia infection to animals and humans. So, this systematic review and meta-analysis aimed to assess the status and genetic diversity of microsporidia infection in water, vegetables, fruits, milk, cheese, and meat. The standard protocol of Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines was followed. Scopus, PubMed, Web of Science, and Google Scholar were searched from 1 January 2000 and 1 February 2023. The point estimates and 95% confidence intervals (CIs) were calculated using a random-effects model. Of the 1,308 retrieved studies, 35 articles were included in the final meta-analysis. The pooled prevalence of microsporidia infection in mixed water, mixed fruits, mixed vegetables, and milk was 43.3% (95% CI, 33-54.2%; I2, 94.86%), 35.8% (95% CI, 5.3-84.8%; I2, 0), 12% (95% CI, 4.9-26.6%; I2, 96.43%), and 5.8% (95% CI, 2.7-12%; I2, 83.72%), respectively. Considering the genotypes, microsporidia with genotype D in water sources and genotype CD6 in vegetables/fruits were the highest reported genotypes. Given the relatively high prevalence of microsporidiosis (especially in water sources), designing strategies for control, and prevention of microsporidia infection in these sources should be recommended. [ABSTRACT FROM AUTHOR]

Published

2023

40. Evaluation of the Performance of the Novodiag ® Stool Parasites Assay for the Detection of Intestinal Protozoa and Microsporidia.

Author

Chauvin, Pamela, Barba, Florie, Guemas, Emilie, Charpentier, Eléna, Cottrel, Claire, Fillaux, Judith, Valentin, Alexis, Baklouti, Sarah, Cassaing, Sophie, Ménard, Sandie, Berry, Antoine, and Iriart, Xavier

Subjects

INTESTINAL parasites, MICROSPORIDIA, MICROSPORIDIOSIS, PROTOZOA, PATHOGENIC protozoa, PARASITES

Abstract

Objectives: We aimed to assess the performance of the Novodiag® Stool Parasites (NSP) assay in the diagnosis of the most common intestinal protozoan and microsporidia infections. Methods: A panel of 167 selected stool samples was retrospectively analysed with the NSP assay and compared to routine microscopy and qPCR methods for the detection of pathogenic protozoa and microsporidia. Results: Whereas specificity was high for all protozoa and microsporidia, NSP sensitivity was strongly dependent on the comparative method used as reference. When compared to microscopic methods, NSP sensitivity was high (96.7 to 100%) for Blastocystis hominis, Entamoeba histolytica and Cyclospora cayetanensis but was lower for Giardia intestinalis (85.2%) and ≤50% for Cystoisospora belli and Dientamoeba fragilis. In comparison to conventional qPCR, the NSP assay demonstrated lower sensitivity characteristics dependent on parasite loads, reaching 60 to 70% for G. intestinalis, D. fragilis, Cryptosporidium spp. and E. histolytica. Sensitivity was 100% for Enterocytozoon bieneusi, but none of the five samples containing Encephalitozoon spp. were detected. Conclusions: The overall performance of the NSP assay in the diagnosis of gastrointestinal protozoa and microsporidia seems to be better than or equivalent to that observed with microscopic methods but inferior to that obtainable with classical targeted qPCR. [ABSTRACT FROM AUTHOR]

Published

2023

41. Occurrence and Molecular Characteristics of Microsporidia in Captive Red Pandas (Ailurus fulgens) in China.

Author

Yang, Jinpeng, Zeng, Yangyang, Li, Caiwu, Liu, Songrui, Meng, Wanyu, Zhang, Wenqing, He, Ming, Wang, Liqin, Zuo, Zhili, Yue, Chanjuan, Li, Desheng, and Peng, Guangneng

Subjects

*RED panda, *NOSEMA cuniculi, *MICROSPORIDIA, *MICROSPORIDIOSIS, *MIXED infections, *GENETIC variation

Abstract

Simple Summary: Microsporidia are obligatory intracellular fungi that cause infection in a broad variety of eukaryotes. However, there are few epidemiological studies on microsporidia in red pandas in China. Therefore, we conducted an epidemiological survey of microsporidia in red pandas from six zoos in Sichuan Province, China. In 198 fecal samples, Enterocytozoon bieneusi was detected in 24 samples (12.1%), while Encephalitozoon spp. was detected in 8 fecal samples (4.0%). Further analysis revealed the presence of genotypes of E. bieneusi with zoonotic concerns. Interestingly, we also observed that the infection rate of microsporidia was higher in semi-free red pandas with more frequent contact with other animals or humans. This is the first report on the occurrence and genotypes of E. bieneusi and Encephalitozoon spp. in red pandas in Sichuan Province, China, contributing to our understanding of the worldwide distribution and genetic diversity of this pathogen. Enterocytozoon bieneusi and Encephalitozoon spp. are microsporidian pathogens with zoonotic potential that pose significant public health concerns. To ascertain the occurrence and genotypes of E. bieneusi and Encephalitozoon spp., we used nested PCR to amplify the internal transcribed spacer (ITS) gene and DNA sequencing to analyze 198 fecal samples from red pandas from 6 zoos in China. The total rate of microsporidial infection was 15.7% (31/198), with 12.1% (24/198), 1.0% (2/198), 2.0% (4/198) and 1.0% (2/198) for infection rate of E. bieneusi, Encephalitozoon cuniculi, Encephalitozoon intestinalis and Encephalitozoon hellem, respectively. One red panda was detected positive for a mixed infection (E. bieneusi and E. intestinalis). Red pandas living in semi-free conditions are more likely to be infected with microsporidia (χ2 = 6.212, df = 1, p < 0.05). Three known (SC02, D, and PL2) and one novel (SCR1) genotypes of E. bieneusi were found. Three genotypes of E. bieneusi (SC02, D, SCR1) were grouped into group 1 with public health importance, while genotype PL2 formed a separate clade associated with group 2. These findings suggest that red pandas may serve as a host reservoir for zoonotic microsporidia, potentially allowing transmission from red pandas to humans and other animals. [ABSTRACT FROM AUTHOR]

Published

2023

42. High Prevalence of Microsporidia in the North African Hedgehog (Atelerix algirus) in the Canary Islands, Spain.

Author

Baz-González, Edgar, Abreu-Acosta, Néstor, and Foronda, Pilar

Subjects

*MICROSPORIDIA, *NOSEMA cuniculi, *MICROSPORIDIOSIS, *HEDGEHOGS, *PARASITES, *INTRACELLULAR pathogens

Abstract

Simple Summary: It is well known that mammals can harbor various pathogens that can affect humans (known as zoonotic pathogens) including viruses, bacteria, fungi and parasites. Microsporidia are a group of pathogens related to fungi and parasites of several animals that can cause diarrhea or systemic infection in humans. Due to the limited knowledge about microsporidia infection in hedgehogs worldwide, this study aimed to analyze the presence and identity of microsporidia in a group of North African hedgehogs from the Canary Islands (Spain). Enterocytozoon bieneusi and Encephalitozoon cuniculi, two zoonotic species of microsporidia, were identified. These results suggest that microsporidia species with zoonotic risk circulate in the archipelago. Microsporidia are unicellular eukaryotic obligate intracellular parasites with a wide range of hosts reported worldwide; however, little is known about the epidemiological data on microsporidia infection in animals from the Canary Islands. Since data on microsporidia infection in hedgehog species are scarce, the aim of this study was to analyze the presence and identity of microsporidia in a group of North African hedgehogs (Atelerix algirus) using microscopic and molecular methods. From December 2020 to September 2021, a total of 36 fecal samples were collected from naturally deceased hedgehogs from Tenerife and Gran Canaria. All samples showed spore-compatible structures (100%; 36/36) under microscopic analysis, of which 61.1% (22/36) were amplified via the nested-polymerase chain reaction (PCR) targeting the partial sequence of the 16S rRNA gene, the internal transcribed spacer (ITS) region, and the partial sequence of the 5.8S rRNA gene. After Sanger sequencing and ITS analysis, Enterocytozoon bieneusi was detected in 47.2% (17/36) of the samples, identifying two novel genotypes (AAE1 and AAE2), followed by the detection of an undetermined species in 8.3% (3/36) and Encephalitozoon cuniculi genotype I in 5.6% (2/36) of the samples. This study constitutes the first report of microsporidia species in Atelerix algirus worldwide, highlighting the high prevalence of zoonotic species. [ABSTRACT FROM AUTHOR]

Published

2023

43. Detección de Microsporidios y factores asociados en pacientes VIH positivos con síndrome diarreico en el Hospital "Dr. José Daniel Rodríguez", Guayaquil-Ecuador, 2021-2022.

Author

Betty Judith, Pazmiño-Gómez, Karen Alexandra, Rodas-Pazmiño, Luis Eduardo, Cagua-Montaño, Roberto Darwin, Coello Peralta, and Jennifer Paola, Rodas-Pazmiño

Subjects

*MICROSCOPY, *OPPORTUNISTIC infections, *MICROSPORIDIOSIS, *MARITAL status, *MICROSPORIDIA

Abstract

Microsporidiosis is an emerging opportunistic human infection, capable of producing from a localized infection to a systemic infection. The objective was to detect the presence of Microsporidia in samples from HIV positive patients with diarrheal syndrome at the "Dr. José Daniel Rodríguez" from Guayaquil, 2021-2022. 87 patients were studied using the optical microscopy method, with fast-hot Gram Chromotrope staining, the analysis of results was carried out through descriptive statistics and Excel and SPSS software were used. About the total number of individuals studied, 13 (14.9%) patients were found positive for Microsporidia and 74 (85.1%) did not present spores. Regarding the level of education, 8 (61.5%) have primary school and 5 have secondary school (38.5%), marital status 10 (76.9%) are single and 3 (23.1%) are married, the highest concentration is in Guayaquil 8 (6.5%), Durán 1 (7.7%), Esmeralda 1 (7.7%) and Riobamba 3 (23.1%). The levels of LTCD4+, 7 (53.85%) patients had below 500 xml3 cells and 6 (46.15%) had more than 500 To the type of diarrhea, 13 (100%) presented chronic diarrhea. In conclusion, the optical microscopy method using fast-hot Gram Chromotrope staining allowed the detection of microsporidia spores, demonstrating high sensitivity and specificity. [ABSTRACT FROM AUTHOR]

Published

2023

44. Molecular Detection of Microsporidia in Rabbits (Oryctolagus cuniculus) in Tenerife, Canary Islands, Spain.

Author

Baz-González, Edgar, Martin-Carrillo, Natalia, García-Livia, Katherine, Abreu-Acosta, Néstor, and Foronda, Pilar

Subjects

*RABBITS, *EUROPEAN rabbit, *MICROSPORIDIA, *NOSEMA cuniculi, *MICROSPORIDIOSIS, *DOMESTIC animals

Abstract

Simple Summary: Microsporidia are a group of fungal-related pathogens widely distributed in the environment, with some species having a negative impact on animals and public health. The European rabbit (Oryctolagus cuniculus) is considered the natural host of Encephalitozoon cuniculi, a microsporidian pathogen of mammals, including humans. The infection caused by E. cuniculi, encephalitozoonosis, ranges from asymptomatic to severe lesions in rabbits, with clinical signs involving the central nervous system, kidney, and eye being the most common. The majority of reported cases have been in domestic rabbits, while cases in wild rabbits are uncommon. Due to the lack of data on microsporidia in the Canary Islands, the aim of this work was to analyze the prevalence and identity of microsporidia in fecal samples from rabbits in Tenerife. Enterocytozoon bieneusi and Encephalitozoon spp. are microsporidia with zoonotic potential that have been identified in humans, as well as in a large group of wild and domestic animals. Several wildlife species have been studied as reservoirs of zoonotic microsporidia in mainland Spain, including the European rabbit (Oryctolagus cuniculus). Due to a lack of data on microsporidia infection in wildlife on the Canary Islands, the aim of this work was to analyze the prevalence and identify the species of microsporidia in rabbits in Tenerife. Between 2015 and 2017, a total of 50 fecal samples were collected from rabbits in eight municipalities of Tenerife, Canary Islands, Spain. Seven of the fifty samples (14%) were amplified using nested polymerase chain reaction (PCR) targeting the partial sequence of the 16S rRNA gene, the internal transcribed spacer (ITS) region, and the partial sequence of the 5.8S rRNA gene. Sanger sequencing reveals the presence of Encephalitozoon cuniculi genotype I in two samples (4%), and undescribed microsporidia species in five samples (10%). This study constitutes the first molecular detection and genotyping of E. cuniculi in rabbits in Spain. [ABSTRACT FROM AUTHOR]

Published

2022

45. Metabarcoding reveals low prevalence of microsporidian infections in castor bean tick (Ixodes ricinus)

Author

Artur Trzebny, Justyna Liberska, Anna Slodkowicz-Kowalska, and Miroslawa Dabert

Subjects

Microsporidia, Vector-borne diseases, Zoonoses, Parasitic diseases, Microsporidiosis, DNA metabarcoding, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Microsporidia is a large group of eukaryotic obligate intracellular spore-forming parasites, of which 17 species can cause microsporidiosis in humans. Most human-infecting microsporidians belong to the genera Enterocytozoon and Encephalitozoon. To date, only five microsporidian species, including Encephalitozoon-like, have been found in hard ticks (Ixodidae) using microscopic methods, but no sequence data are available for them. Furthermore, no widespread screening for microsporidian-infected ticks based on DNA analysis has been carried out to date. Thus, in this study, we applied a recently developed DNA metabarcoding method for efficient microsporidian DNA identification to assess the role of ticks as potential vectors of microsporidian species causing diseases in humans. Methods In total, 1070 (493 juvenile and 577 adult) unfed host-seeking Ixodes ricinus ticks collected at urban parks in the city of Poznan, Poland, and 94 engorged tick females fed on dogs and cats were screened for microsporidian DNA. Microsporidians were detected by PCR amplification and sequencing of the hypervariable V5 region of 18S rRNA gene (18S profiling) using the microsporidian-specific primer set. Tick species were identified morphologically and confirmed by amplification and sequencing of the shortened fragment of cytochrome c oxidase subunit I gene (mini-COI). Results All collected ticks were unambiguously assigned to I. ricinus. Potentially zoonotic Encephalitozoon intestinalis was identified in three fed ticks (3.2%) collected from three different dogs. In eight unfed host-seeking ticks (0.8%), including three males (1.1%), two females (0.7%) and three nymphs (0.7%), the new microsporidian sequence representing a species belonging to the genus Endoreticulatus was identified. Conclusions The lack of zoonotic microsporidians in host-seeking ticks suggests that I. ricinus is not involved in transmission of human-infecting microsporidians. Moreover, a very low occurrence of the other microsporidian species in both fed and host-seeking ticks implies that mechanisms exist to defend ticks against infection with these parasites. Graphical abstract

Published

2022

46. Occurrence of Nosemosis in honey bee, Apis mellifera L. at the apiaries of East Kazakhstan.

Author

Baigazanov, Abdrakhman, Tikhomirova, Yelena, Valitova, Natalya, Nurkenova, Maral, Koigeldinova, Ainur, Abdullina, Elmira, Zaikovskaya, Olga, Ikimbayeva, Nurgul, Zainettinova, Dinara, and Bauzhanova, Lyailya

Subjects

HONEYBEES, APIARIES, MICROSPORIDIOSIS, PARASITIC diseases, MOLECULAR biology, BEEKEEPING, INVERSE relationships (Mathematics)

Abstract

Nosemosis is the most common disease in honey bee Apis mellifera L., and is a major issue related to bee health worldwide. Therefore, the purpose of this research study was to determine prevalence of microsporidia parasitic infection of the genus Nosema spp. in East Kazakhstan Region (EKR). In the years of 2018 -2021, 394 honey bee samples were collected at 30 apiaries located in four districts of East Kazakhstan Region (Katon-Karagay, Urzhar, Borodulikhinsky, and Shemonaikhinsky). In order to determine the level of infestation, firstly, the presence of Nosema spp. spores was detected using optical microscopy, and then the average amount of spores per bee was counted using a hemocytometer. The degree of nosemosis prevalence was determined in points by means of a semi-quantitative method, and as a percentage from the total of samples and of the amount of positive tests. At the outcome of the study, microsporidia of the genus Nosema spp. were detected in 23.3% of cases (92 samples). Prevalence at its low degree was found in six samples (1.5%), at an average degree in 55 samples (14%), and at a high one in 31 samples (7.9%). This research study proved that microsporidia of the genus Nosema spp. are widely spread at the apiaries of East Kazakhstan Region in different orographic and climatic conditions. Notwithstanding that it was impossible to statistically determine any significant differences between the dependence of nosemosis prevalence and the apiary location, this indicator is actually higher in the mountainous regions than in the steppe. Concurrently, a close inverse correlation was recognized between the amount of spores in one bee and the level of infestation in bee families from the duration of the vegetation season at the apiary location. This gives grounds to assert that the environmental factors have an impact on formation and development of nosemosis. The results of the research presented in the article indicate the need for further research aimed at increasing the number of studied apiaries, and above all the use of molecular biology methods to distinguish the species that cause nosemosis infection (PCR). [ABSTRACT FROM AUTHOR]

Published

2022

47. Microsporidia as a Potential Threat to the Iberian Lynx (Lynx pardinus).

Author

Izquierdo, Fernando, Ollero, Dolores, Magnet, Angela, Galván-Díaz, Ana L., Llorens, Sergio, Vaccaro, Lucianna, Hurtado-Marcos, Carolina, Valdivieso, Elizabeth, Miró, Guadalupe, Hernández, Leticia, Montoya, Ana, Bornay-Llinares, Fernando J., Acosta, Lucrecia, Fenoy, Soledad, and del Águila, Carmen

Subjects

*LYNX, *MICROSPORIDIA, *MICROSPORIDIOSIS, *NOSEMA cuniculi, *ANIMAL populations, *VIRAL antibodies

Abstract

Simple Summary: The Iberian lynx, which inhabits the Iberian Peninsula, is one of the most endangered felines in the world. Wild Iberian lynx populations have suffered a constant regression over the past century, with a rapid decline of 90% in the last 20 years. Infectious diseases are one of the most critical threats that cause the population decline of these animals, either in the wild or captivity. Different studies have revealed positive seroprevalence against various pathogens, confirming contact and exposure to bacteria, viruses, and parasites. In this sense, searching for pathogens related to the depopulation of the Iberian lynx is vital for conserving and maintaining this threatened species. The present work confirmed the presence of microsporidia, opportunistic intracellular parasites recently related to fungi, in the lynx environment. Also, different species of microsporidia were determined for the first time in the urine, feces, and tissue samples of Lynx pardinus. Further studies are needed to establish the impact of microsporidia infection on the survival of the Iberian lynx. These studies would contribute to the endurance and conservation of this feline by implementing new prevention strategies. Lynx pardinus is one of the world's most endangered felines inhabiting the Iberian Peninsula. The present study was performed to identify the presence of microsporidia due to the mortality increase in lynxes. Samples of urine (n = 124), feces (n = 52), and tissues [spleen (n = 13), brain (n = 9), liver (n = 11), and kidney (n = 10)] from 140 lynxes were studied. The determination of microsporidia was evaluated using Weber's chromotrope stain and Real Time-PCR. Of the lynxes analyzed, stains showed 10.48% and 50% positivity in urine and feces samples, respectively. PCR confirmed that 7.69% and 65.38% belonged to microsporidia species. The imprints of the tissues showed positive results in the spleen (38.46%), brain (22.22%), and liver (27.27%), but negative results in the kidneys. PCR confirmed positive microsporidia results in 61.53%, 55.55%, 45.45%, and 50%, respectively. Seroprevalence against Encephalitozoon cuniculi was also studied in 138 serum samples with a positivity of 55.8%. For the first time, the results presented different species of microsporidia in the urine, feces, and tissue samples of Lynx pardinus. The high titers of anti-E. cuniculi antibodies in lynx sera confirmed the presence of microsporidia in the lynx environment. New studies are needed to establish the impact of microsporidia infection on the survival of the Iberian lynx. [ABSTRACT FROM AUTHOR]

Published

2022

48. Transcriptomic Analysis to Unravel Potential Pathways and Genes Involved in Pecan (Carya illinoinensis) Resistance to Pestalotiopsis microspora.

Author

Chen, Yu, Zhang, Shijie, Zhao, Yuqiang, Mo, Zhenghai, Wang, Wu, and Zhu, Cancan

Subjects

*PECAN, *MICROSPORIDIA, *PESTALOTIOPSIS, *MICROSPORIDIOSIS, *TRANSCRIPTOMES

Abstract

Fruit black spot (FBS), a fungal disease of pecan (Carya illinoinensis (Wangenh) K. Koch) caused by the pathogen Pestalotiopsis microspora, is a serious disease and poses a critical threat to pecan yield and quality. However, the details of pecan responses to FBS infection at the transcriptional level remain to be elucidated. In present study, we used RNA-Seq to analyze differential gene expression in three pecan cultivars with varied resistance to FBS infection: Xinxuan-4 (X4), Mahan (M), and Wichita (W), which were categorized as having low, mild, and high susceptibility to FBS, respectively. Nine RNA-Seq libraries were constructed, comprising a total of 58.56 Gb of high-quality bases, and 2420, 4380, and 8754 differentially expressed genes (DEGs) with |log2Fold change| ≥ 1 and p-value < 0.05 were identified between M vs. X4, W vs. M, and W vs. X4, respectively. Kyoto Encyclopedia of Genes and Genomes (KEGG) metabolic pathway analyses were performed to further annotate DEGs that were part of specific pathways, which revealed that out of 134 total pathways, MAPK signaling pathway, plant–pathogen interaction, and plant hormone signal transduction were highly enriched. Transcriptomic profiling analysis revealed that 1681 pathogen-related genes (PRGs), including 24 genes encoding WRKY transcription factors, potentially participate in the process of defense against Pestalotiopsis microspora infection in pecan. The correlation of WRKY TFs and PRGs was also performed to reveal the potential interaction networks among disease-resistance/pathogenesis-related genes and WRKY TFs. Expression profiling of nine genes annotated as TIFY, WRKY TF, and disease-resistance protein-related genes was performed using qRT-PCR, and the results were correlated with RNA-Seq data. This study provides valuable information on the molecular basis of pecan–Pestalotiopsis microspora interaction mechanisms and offers a repertoire of candidate genes related to pecan fruit response to FBS infection. [ABSTRACT FROM AUTHOR]

Published

2022

49. Incubation Period, Spore Shedding Duration, and Symptoms of Enterocytozoon bieneusi Genotype C Infection in a Foodborne Outbreak in Denmark, 2020.

Author

Michlmayr, Daniela, Sousa, Luís Alves de, Müller, Luise, Jokelainen, Pikka, Ethelberg, Steen, Vestergaard, Lasse Skafte, Schjørring, Susanne, Mikkelsen, Sarah, Jensen, Carl Widstrup, Rasmussen, Lasse Dam, and Stensvold, Christen Rune

Subjects

*ENTEROCYTOZOON bieneusi, *CONFIDENCE intervals, *FOOD poisoning, *EPIDEMICS, *INFECTIOUS disease transmission, *MYCOSES, *DESCRIPTIVE statistics, *QUESTIONNAIRES, *POLYMERASE chain reaction

Abstract

Background Microsporidia are rarely reported to cause outbreaks of diarrhea. We describe a foodborne outbreak of microsporidiosis from a workplace canteen in November 2020 in Denmark. Methods A probable case was defined as any person using the canteen between 4 November and 13 December 2020, reporting at least one gastrointestinal symptom, whereas a confirmed case also had an Enterocytozoon bieneusi positive stool sample. A web-based questionnaire was used to collect clinical, epidemiological, and food exposure data. We performed a retrospective cohort study and tested stool samples from affected individuals for bacterial, viral, and parasitic pathogens, including E. bieneusi. Results Altogether, 195 individuals completed the questionnaire. We identified 52 cases (65% male; median age 45 years [range 25–65]). Diarrhea (90%), fatigue (83%), and abdominal pain (79%) were the most commonly reported symptoms. Eight cases were laboratory-confirmed and had E. bieneusi genotype C. The incubation period was between 5 and 12 days, and polymerase chain reaction (PCR)-detectable spore shedding occurred up to 43 days after symptom onset. Disease was associated with consuming food from the workplace canteen on 4 November 2020 (relative risk [RR[, 2.8 [95% confidence interval [CI]: 1.4 – 5.4]) and lunchboxes containing open sandwiches (RR, 3.2 [95% CI: 1.4 – 7.2]) served that day. Conclusions This is the second documented foodborne outbreak of E. bieneusi genotype C - associated diarrhea worldwide. Epidemiological findings advocated an open sandwiches lunchbox from 4 November 2020, as a likely source. E. bieneusi may be an under-reported cause of outbreaks of diarrhea, and testing for it might be useful in foodborne outbreak investigations. [ABSTRACT FROM AUTHOR]

Published

2022

50. Microsporidia, a Highly Adaptive Organism and Its Host Expansion to Humans.

Author

Seatamanoch, Nirin, Kongdachalert, Switt, Sunantaraporn, Sakone, Siriyasatien, Padet, and Brownell, Narisa

Subjects

EMERGING infectious diseases, MICROSPORIDIA, ZOONOSES, MICROSPORIDIOSIS, COVID-19, HIV, CORONAVIRUSES, COVID-19 pandemic

Abstract

Emerging infectious disease has become the center of attention since the outbreak of COVID-19. For the coronavirus, bats are suspected to be the origin of the pandemic. Consequently, the spotlight has fallen on zoonotic diseases, and the focus now expands to organisms other than viruses. Microsporidia is a single-cell organism that can infect a wide range of hosts such as insects, mammals, and humans. Its pathogenicity differs among species, and host immunological status plays an important role in infectivity and disease severity. Disseminated disease from microsporidiosis can be fatal, especially among patients with a defective immune system. Recently, there were two Trachipleistophora hominis , a microsporidia species which can survive in insects, case reports in Thailand, one patient had disseminated microsporidiosis. This review gathered data of disseminated microsporidiosis and T. hominis infections in humans covering the biological and clinical aspects. There was a total of 22 cases of disseminated microsporidiosis reports worldwide. Ten microsporidia species were identified. Maximum likelihood tree results showed some possible correlations with zoonotic transmissions. For T. hominis, there are currently eight case reports in humans, seven of which had Human Immunodeficiency Virus (HIV) infection. It is observed that risks are higher for the immunocompromised to acquire such infections, however, future studies should look into the entire life cycle, to identify the route of transmission and establish preventive measures, especially among the high-risk groups. [ABSTRACT FROM AUTHOR]

Published

2022