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Emerging Microbes & Infections Dec 2023Intestinal microsporidiosis is most often caused by , and to a lesser extent by species of the genus . Until now, was not clearly known to induce disease restricted to...
Intestinal microsporidiosis is most often caused by , and to a lesser extent by species of the genus . Until now, was not clearly known to induce disease restricted to the intestine, or rarely in HIV subjects or in tropical countries. We report here 11 cases of delineated intestinal microsporidioses due to diagnosed in France in non-HIV patients. Briefly, all patients were immunocompromised. They all suffered from diarrhoea, associated in nearly 50% of cases with weight loss. Concerning treatment, 5/11 patients had a discontinuation or a decrease of their immunosuppressive therapy, and 4/11 received albendazole. All patients recovered. Five different genotypes were identified based on the rRNA ITS sequence.
Topics: Humans; Encephalitozoon; Microsporidiosis; Enterocytozoon; Intestines; Feces
PubMed: 37706342
DOI: 10.1080/22221751.2023.2258997 -
Nature Communications Jan 2022Defense against intracellular infection has been extensively studied in vertebrate hosts, but less is known about invertebrate hosts; specifically, the transcription...
Defense against intracellular infection has been extensively studied in vertebrate hosts, but less is known about invertebrate hosts; specifically, the transcription factors that induce defense against intracellular intestinal infection in the model nematode Caenorhabditis elegans remain understudied. Two different types of intracellular pathogens that naturally infect the C. elegans intestine are the Orsay virus, which is an RNA virus, and microsporidia, which comprise a phylum of fungal pathogens. Despite their molecular differences, these pathogens induce a common host transcriptional response called the intracellular pathogen response (IPR). Here we show that zip-1 is an IPR regulator that functions downstream of all known IPR-activating and regulatory pathways. zip-1 encodes a putative bZIP transcription factor, and we show that zip-1 controls induction of a subset of genes upon IPR activation. ZIP-1 protein is expressed in the nuclei of intestinal cells, and is at least partially required in the intestine to upregulate IPR gene expression. Importantly, zip-1 promotes resistance to infection by the Orsay virus and by microsporidia in intestinal cells. Altogether, our results indicate that zip-1 represents a central hub for triggers of the IPR, and that this transcription factor has a protective function against intracellular pathogen infection in C. elegans.
Topics: Animals; Basic-Leucine Zipper Transcription Factors; Caenorhabditis elegans; Caenorhabditis elegans Proteins; Enterocytes; Host-Pathogen Interactions; Immunity, Innate; Intestines; Invertebrates; Microsporidia; RNA Viruses
PubMed: 35013162
DOI: 10.1038/s41467-021-27621-w -
Journal of Invertebrate Pathology Oct 2022Parathelohania is a genus of microsporidia that preferentially attacks Anopheline mosquitoes. This study explored some selective aspects of the epizootiology of...
Parathelohania is a genus of microsporidia that preferentially attacks Anopheline mosquitoes. This study explored some selective aspects of the epizootiology of Parathelohania iranica (Microsporidia: Amblyosporidae) in its malaria mosquito host Anopheles superpictus s.l. (Diptera: Culicidae). For this study, Sar-rok Village, a place adjacent to the type locality of the parasite, located at the central western part of Iran was visited twice a month to collect host larvae from mid-summer to mid-autumn of 2017-2021. Patent infections were detected by the whitish discoloration of the involved segments. Superficially uninfected larvae were reared up to 26 days in the insectary to elucidate hidden infections. Molecular investigation and laboratory trials were conducted to evaluate the possibility of secondary infections in subsequent days. Morphological characters were used to determine the sex of larvae and adults. Data were entered in SPSS 23.0 and analyzed with relevant statistical tests as needed. In total, 584 P. iranica infected larvae of An. superpictus s.l. were collected in the study years at day zero (D0). Extended observations in the insectary revealed that 849 larvae (84.2 %), 22 dead pupae (2.2 %), and 137 emerged adults (13.6 %) were also infected. In the first two years of the study, the mean infection rate for D0 and D0 + D1-D26 infections was 6.25 % and 15.6 %, respectively. Exposure experiments indicated that subsequent infections in larvae (D1-D26) were not affected by a possible source in the accompanying field water. Patent (D0) infections were seasonal and had about a month delay compared to the general population of larvae. Concealed infections of larvae (D1-D26) were significantly more frequent in late mosquito season (P < 0.01). It is proposed that the gradual decrease of ambient temperature and the shortening of day length postpones the growth and development of P. iranica in the affected larvae. Both sexes of larvae were involved and none of them survived beyond a couple of days. The frequency of infections in adult males (5.8 %) were significantly more than females (4 %) (P = 0.02). The infections of larvae were more common in the late mosquito season, and the infections of adults were more frequent in the early mosquito season. This suggests the relative importance of vertical and horizontal routes of transmission in early and late mosquito seasons, respectively. However, age-specific data revealed that only 26 % of hidden infections of larvae (D1-D26) were stemmed from I to II age group. This implies that the vertical route may be less efficient than the horizontal route in the transmission of P. iranica to the mosquito host. These inferences should be verified with further field and laboratory investigations.
Topics: Animals; Anopheles; Female; Larva; Male; Microsporidia; Water
PubMed: 36055409
DOI: 10.1016/j.jip.2022.107823 -
Parasitology Oct 2020Recent declines of wild pollinators and infections in honey, bumble and other bee species have raised concerns about pathogen spillover from managed honey and bumble...
Recent declines of wild pollinators and infections in honey, bumble and other bee species have raised concerns about pathogen spillover from managed honey and bumble bees to other pollinators. Parasites of honey and bumble bees include trypanosomatids and microsporidia that often exhibit low host specificity, suggesting potential for spillover to co-occurring bees via shared floral resources. However, experimental tests of trypanosomatid and microsporidial cross-infectivity outside of managed honey and bumble bees are scarce. To characterize potential cross-infectivity of honey and bumble bee-associated parasites, we inoculated three trypanosomatids and one microsporidian into five potential hosts - including four managed species - from the apid, halictid and megachilid bee families. We found evidence of cross-infection by the trypanosomatids Crithidia bombi and C. mellificae, with evidence for replication in 3/5 and 3/4 host species, respectively. These include the first reports of experimental C. bombi infection in Megachile rotundata and Osmia lignaria, and C. mellificae infection in O. lignaria and Halictus ligatus. Although inability to control amounts inoculated in O. lignaria and H. ligatus hindered estimates of parasite replication, our findings suggest a broad host range in these trypanosomatids, and underscore the need to quantify disease-mediated threats of managed social bees to sympatric pollinators.
Topics: Animals; Bees; Crithidia; Honey; Host Specificity; Host-Parasite Interactions; Microsporidiosis; Nosema; Pathology, Molecular; Real-Time Polymerase Chain Reaction; Trypanosomatina
PubMed: 32616082
DOI: 10.1017/S0031182020001018 -
BMC Genomics Apr 2024Congenital infection caused by vertical transmission of microsporidia N. bombycis can result in severe economic losses in the silkworm-rearing industry....
Congenital infection caused by vertical transmission of microsporidia N. bombycis can result in severe economic losses in the silkworm-rearing industry. Whole-transcriptome analyses have revealed non-coding RNAs and their regulatory networks in N. bombycis infected embryos and larvae. However, transcriptomic changes in the microsporidia proliferation and host responses in congenitally infected embryos and larvae remains unclear. Here, we simultaneously compared the transcriptomes of N. bombycis and its host B. mori embryos of 5-day and larvae of 1-, 5- and 10-day during congenital infection. For the transcriptome of N. bombycis, a comparison of parasite expression patterns between congenital-infected embryos and larva showed most genes related to parasite central carbon metabolism were down-regulated in larvae during infection, whereas the majority of genes involved in parasite proliferation and growth were up-regulated. Interestingly, a large number of distinct or shared differentially expressed genes (DEGs) were revealed by the Venn diagram and heat map, many of them were connected to infection related factors such as Ricin B lectin, spore wall protein, polar tube protein, and polysaccharide deacetylase. For the transcriptome of B. mori infected with N. bombycis, beyond numerous DEGs related to DNA replication and repair, mRNA surveillance pathway, RNA transport, protein biosynthesis, and proteolysis, with the progression of infection, a large number of DEGs related to immune and infection pathways, including phagocytosis, apoptosis, TNF, Toll-like receptor, NF-kappa B, Fc epsilon RI, and some diseases, were successively identified. In contrast, most genes associated with the insulin signaling pathway, 2-oxacarboxylic acid metabolism, amino acid biosynthesis, and lipid metabolisms were up-regulated in larvae compared to those in embryos. Furthermore, dozens of distinct and three shared DEGs that were involved in the epigenetic regulations, such as polycomb, histone-lysine-specific demethylases, and histone-lysine-N-methyltransferases, were identified via the Venn diagram and heat maps. Notably, many DEGs of host and parasite associated with lipid-related metabolisms were verified by RT-qPCR. Taken together, simultaneous transcriptomic analyses of both host and parasite genes lead to a better understanding of changes in the microsporidia proliferation and host responses in embryos and larvae in N. bombycis congenital infection.
Topics: Animals; Transcriptome; Larva; Histones; Lysine; Nosema; Gene Expression Profiling; Cell Proliferation; Lipids; Bombyx
PubMed: 38556880
DOI: 10.1186/s12864-024-10236-y -
Journal of Proteomics Jul 2022Microsporidium is a kind of intracellular fungal pathogen that greatly threatens the human health, breeding industry, and food security. All members of microsporidia...
Microsporidium is a kind of intracellular fungal pathogen that greatly threatens the human health, breeding industry, and food security. All members of microsporidia possess a unique, highly specialized invasion organelle, described as the polar filament. Like "reversing a finger of gloves", the polar filament discharges out of mature spores to transform as the polar tube, and pathogenic sporoplasm is transported to host cell through polar tube to complete infection. During the invasion process, the structure of polar filament and polar tube has changed, so does the protein composition on them? In this study, we firstly proposed a purification method for polar filament and polar tube from microsporidium Nosema bombycis which was infected silkworm Bombyx mori, and it was also found that the structure of polar filament and polar tube was obviously different. Therefore, the proteome of these two structures was comparatively analyzed. A total of 881 and 1216 proteins were respectively identified from the polar filament and polar tube. Ten potential novel polar tube proteins (PTPs) were screened, providing a reference for the novel PTPs identification. Compared with the polar filament, there were 35 upregulated and 41 downregulated proteins on the polar tube. GO and KEGG pathway analysis of all proteins from the polar filament and polar tube provided us with a profound understanding for the microsporidian germination process, which was of great significance for clarifying the infection mechanism of microsporidia. SIGNIFICANCE: Microsporidia are obligate intracellular parasites that infect a wide variety of hosts, including humans. The polar filament is a unique invasion organelle for microsporidia, and it is also one of the important indexes of microsporidian taxonomy. The polar tube is deformed from the primitive polar filament in mature spores. During the germination, the polar filament turns into a polar tube, like "reversing a finger of gloves", through which pathogenic sporoplasm is transported to host cells to complete infection. Since the structure of the polar filament and polar tube has changed, what about their protein composition? In this study, it was the first time to purify the polar filament and the polar tube from microsporidium Nosema bombycis that was infected silkworm Bombyx mori, which provided new insights for studying the invasion organelle of microsporidia. Comparing the fine structure of polar filament and polar tube, we found that their structure was obviously different. Therefore, the protein composition of these two structures is supposed to be varied. In this case, the proteome of these two structures was comparatively analyzed. A total of 881 and 1216 proteins were respectively identified from the polar filament and polar tube. Ten potential novel polar tube proteins (PTPs) were screened, providing a reference for the novel PTPs identification. Compared with the polar filament, there were 35 upregulated and 41 downregulated proteins on the polar tube. GO and KEGG pathway analysis of all proteins from the polar filament and polar tube provided us with a profound understanding for the microsporidian germination process, which was of great significance for clarifying the infection mechanism of microsporidia.
Topics: Animals; Bombyx; Fungal Proteins; Microsporidia, Unclassified; Nosema; Organelles; Plant Breeding; Proteome; Proteomics; Spores, Fungal
PubMed: 35595055
DOI: 10.1016/j.jprot.2022.104617 -
The British Journal of Ophthalmology May 2023To describe the clinical features, diagnosis and management of immune stromal keratitis/interstitial keratitis (IK) associated with microsporidial epithelial keratitis.
BACKGROUND AND OBJECTIVE
To describe the clinical features, diagnosis and management of immune stromal keratitis/interstitial keratitis (IK) associated with microsporidial epithelial keratitis.
METHODS
Between October 2020 and January 2021, medical records of IK patients microbiologically proven as microsporidia from samples collected from corneal epithelium on smear examination, and/ or molecular analysis were reviewed. Demography, clinical profile and treatment were analysed. Real-time PCR (RT-PCR) for adenovirus (ADV), Epstein-Barr virus (EBV), herpes simplex virus (HSV) and varicella-zoster virus (VZV) was done.
RESULTS
Twenty of 152 (13%) microbiologically proven cases of microsporidial keratitis were diagnosed as IK during the study period, the mean age and duration of symptoms were 35.7±11.4 years and 46.3±27.7 days, respectively. Half had predisposing risk factors, like trauma; and 30% had prior recurrences. One-fourth of patients were using antivirals on presentation. Characteristic presentations included disciform keratitis(n=12), incomplete/complete ring(n=5), and combination(n=3), along with variable subepithelial infiltrates (n=14). All cases had stromal oedema, with an intact epithelium and fine pigment dusting on endothelium. Corneal epithelial scrapings had scanty microsporidia spores in smears of 17/20 (85%), and pan-microsporidial DNA was identified in 14/20 (70%), with Vittaforma corneae by sequencing in 11/20 (55%). Other viruses detected were ADV (14,70%), VZV (2,10%), EBV (1,5%) and HSV (1,5%). Rapid resolution of inflammation and oedema within 2 weeks of starting steroids was seen in all cases.
CONCLUSION
Microsporidia epithelial keratitis induced stromal inflammatory keratitis; is distinguished from microsporidial keratoconjunctivitis and stromal keratitis, by characteristic clinical features, and response to topical steroids.
Topics: Humans; Microsporidia; Epstein-Barr Virus Infections; Microsporidiosis; Herpesvirus 4, Human; Keratitis
PubMed: 34937694
DOI: 10.1136/bjophthalmol-2021-319784 -
Diseases of Aquatic Organisms Oct 2019Amphipods are commonly used test organisms in ecotoxicological studies. Nevertheless, their naturally occurring parasites have mostly been neglected in these... (Review)
Review
Amphipods are commonly used test organisms in ecotoxicological studies. Nevertheless, their naturally occurring parasites have mostly been neglected in these investigations, even though several groups of parasites can have a multitude of effects, e.g. on host survival, physiology, or behavior. In the present review, we summarize the knowledge on the effects of Microsporidia and Acanthocephala, 2 common and abundant groups of parasites in amphipods, on the outcome of ecotoxicological studies. Parasites can have significant effects on toxicological endpoints (e.g. mortality, biochemical markers) that are unexpected in some cases (e.g. down-regulation of heat shock protein 70 response in infected individuals). Therefore, parasites can bias the interpretation of results, for example if populations with different parasite profiles are compared, or if toxicological effects are masked by parasite effects. With the present review, we would like to encourage ecotoxicologists to consider parasites as an additional factor if field-collected test organisms are analyzed for biomarkers. Additionally, we suggest intensification of research activities on the effects of parasites in amphipods in connection with other stressors to disentangle parasite and pollution effects and to improve our understanding of parasite effects in this host taxon.
Topics: Acanthocephala; Amphipoda; Animals; Host-Parasite Interactions; Microsporidia; Parasites
PubMed: 31575839
DOI: 10.3354/dao03355 -
Veterinary Medicine and Science Jul 2023Honey bees and honeycomb bees are very valuable for wild flowering plants and economically important crops due to their role as pollinators. However, these insects... (Review)
Review
BACKGROUND
Honey bees and honeycomb bees are very valuable for wild flowering plants and economically important crops due to their role as pollinators. However, these insects confront many disease threats (viruses, parasites, bacteria and fungi) and large pesticide concentrations in the environment. Varroa destructor is the most prevalent disease that has had the most negative effects on the fitness and survival of different honey bees (Apis mellifera and A. cerana). Moreover, honey bees are social insects and this ectoparasite can be easily transmitted within and across bee colonies.
OBJECTIVE
This review aims to provide a survey of the diversity and distribution of important bee infections and possible management and treatment options, so that honey bee colony health can be maintained.
METHODS
We used PRISMA guidelines throughout article selection, published between January 1960 and December 2020. PubMed, Google Scholar, Scopus, Cochrane Library, Web of Science and Ovid databases were searched.
RESULTS
We have collected 132 articles and retained 106 articles for this study. The data obtained revealed that V. destructor and Nosema spp. were found to be the major pathogens of honey bees worldwide. The impact of these infections can result in the incapacity of forager bees to fly, disorientation, paralysis, and death of many individuals in the colony. We find that both hygienic and chemical pest management strategies must be implemented to prevent, reduce the parasite loads and transmission of pathogens. The use of an effective miticide (fluvalinate-tau, coumaphos and amitraz) now seems to be an essential and common practice required to minimise the impact of Varroa mites and other pathogens on bee colonies. New, alternative biofriendly control methods, are on the rise, and could be critical for maintaining honey bee hive health and improving honey productivity.
CONCLUSIONS
We suggest that critical health control methods be adopted globally and that an international monitoring system be implemented to determine honey bee colony safety, regularly identify parasite prevalence, as well as potential risk factors, so that the impact of pathogens on bee health can be recognised and quantified on a global scale.
Topics: Animals; Bees; Nosema; Pesticides; Varroidae; Animal Diseases
PubMed: 37335585
DOI: 10.1002/vms3.1194 -
Vector Borne and Zoonotic Diseases... Jan 2021Microsporidia are a group of unicellular and opportunistic intestinal parasites in which is a frequent species causing microsporidial infections in humans. Many...
Microsporidia are a group of unicellular and opportunistic intestinal parasites in which is a frequent species causing microsporidial infections in humans. Many domesticated and wild animals have been shown to be hosts of and other microsporidia. The role of hedgehogs in the ecology of microsporidia is unclear; therefore, we investigated the prevalence and genetic diversity of , , and spp. in hedgehogs () collected from Hubei Province in Central China. PCR amplification of the internal transcribed spacer region of the ribosomal DNA indicated that 9.8% (4/41) hedgehogs were positive to , but none (0/41) was positive to and spp. Phylogenetic analysis showed the strains detected from the hedgehogs belong to four novel genotypes (EA1-EA4), which were most closely related to type IV of group 1c. This study demonstrated that hedgehogs are hosts of and may play a role in the transmission of to humans in the process of being caught and slaughtered.
Topics: Animals; Blastocystis; China; Cryptosporidium; DNA, Ribosomal Spacer; Enterocytozoon; Hedgehogs; Microsporidiosis; Prevalence; Sequence Analysis, DNA
PubMed: 33170090
DOI: 10.1089/vbz.2020.2622