The first finding of antibodies to Encephalitozoon cuniculi in cows in Slovakia

Chronic Infections in Mammals Due to Microsporidia

Microsporidia are pathogenic organism related to fungi. They cause infections in a wide variety of mammals as well as in avian, amphibian, and reptilian hosts. Many microsporidia species play an important role in the development of serious diseases that have significant implications in human and veterinary medicine. While microsporidia were originally considered to be opportunistic pathogens in humans, it is now understood that infections also occur in immune competent humans. Encephalitozoon cuniculi, Encephalitozoon intestinalis, and Enterocytozoon bieneusi are primarily mammalian pathogens. However, many other species of microsporidia that have some other primary host that is not a mammal have been reported to cause sporadic mammalian infections. Experimental models and observations in natural infections have demonstrated that microsporidia can cause a latent infection in mammalian hosts. This chapter reviews the published studies on mammalian microsporidiosis and the data on chronic infections due to these enigmatic pathogens.

Screening of opportunistic Encephalitozoon intestinalis and Enterocytozoon bieneusi in immunocompromised patients in Slovakia

OBJECTIVE

In recent years new infectious diseases, i.e. emerging or re-emerging diseases, have been coming to the forefront. Currently, microsporidia, considered to be a major cause of emerging and opportunistic infections particularly in immunocompromised individuals, are also included in this group. Therefore, the aim of our study was to map the prevalence of Encephalitozoon intestinalis and Enterocytozoon bieneusi infection in a group of patients and to compare it with the occurrence of specific antigens in immunocompetent people.

METHODS

Detection of spores of both pathogens in faecal samples was performed by an immunofluorescence test using species-specific monoclonal antibodies.

RESULTS

Positivity to E. intestinalis in 91 examined immunosuppressed patients reached 33% (30/91), while only 4.3% (3/70) of the control group samples were found to be positive (relative risk 7.7, p < 0.001). In case of E. bieneusi 14.3% (13/91) of immunocompromised patients were positive, as were 5.7% (4/70) of people from the control group (relative risk 2.5, p = 0.095).

CONCLUSION

In case of development of any opportunistic infection, the infection is detected and removed in most cases at an early stage. The incidence of clinically manifested microsporidiosis in patients with immunodeficiency is rare as they are under constant medical supervision. However, we must not forget about opportunistic infections, and in case of any non-specific symptoms it is necessary to exclude or confirm the diagnosis for immediate treatment.

Encephalitozoon cuniculi in Raw Cow's Milk Remains Infectious After Pasteurization

This study describes the prevalence of Encephalitozoon cuniculi in raw cow's milk and evaluates the effect of different milk pasteurization treatments on E. cuniculi infectivity for severe combined immunodeficient (SCID) mice. Using a nested polymerase chain reaction approach, 1 of 50 milking cows was found to repeatedly shed E. cuniculi in its feces and milk. Under experimental conditions, E. cuniculi spores in milk remained infective for SCID mice following pasteurization treatments at 72 °C for 15 s or 85 °C for 5 s. Based on these findings, pasteurized cow's milk should be considered a potential source of E. cuniculi infection in humans.

First detection of an ignored parasite, Encephalitozoon cuniculi, in different animal hosts in Egypt

Encephalitozoon cuniculi is an obligate intracellular microsporidian parasite that infects a wide range of mammalian hosts. The present study investigated the prevalence of E. cuniculi in different animal hosts from different provinces of Egypt (Alexandria, Behera, and Assuit) using serological (IFAT and ELISA) and molecular (PCR) assays. A total of 324 serum and 274 urine samples were collected from seven different species of animals (cattle, buffaloes, sheep, goat, rabbit, dog, and rat). The results of serological examination confirmed the occurrence of antibodies against E. cuniculi in 38.9 % (126 out of 324) of the examined animals. The significant (P < 0.01) highest positivity was observed in goats (67 %) followed by buffaloes, rabbits, dogs, rat, and cattle (46.42, 41, 40, 36.2, and 28.1 %, respectively), while the least was recorded in sheep (9 %). Behera province showed the highest (P < 0.01) infection rate (40.68 %) followed by Alexandria and Assuit (39.2 and 22.73 %, respectively). The infection rate was significantly higher (P < 0.01) in females (45.34 %) than that in males (30.47 %). Positive cases were observed in all age categories. The highest infection rate (64.66 %) was recorded in the age group 1-5 years and the least was recorded in the age group <1 year (34.85 %).On the other hand, only five positive out of 274 urine samples (1.82 %) were detected by PCR. Our study provides a wide database on prevalence and epidemiology of an ignored parasite (E. cuniculi) for the first time in Egypt.

First detection and genotyping of Encephalitozoon cuniculi in a new host species, gyrfalcon (Falco rusticolus)

Recently, the pathogenic species of microsporidia of the genus Encephalitozoon have been detected increasingly, also in representatives of the Aves class. Our study presents laboratory proof of Encephalitozoon cuniculi (E. cuniculi) genotype II in a new host, gyrfalcon (Falco rusticolus), with suspect microsporidiosis. E. cuniculi is an obligate intracellular microsporidian parasite that infects a wide range of mammalian hosts, including humans. Characterization of the internal transcribed spacer of the rRNA gene has identified three genotypes of E. cuniculi based on the number of 5'-GTTT-3' repeats present: a genotype I from rabbits and mice, containing three repeats; a genotype II from mice and dogs, containing two repeats; and a genotype III from dogs and fox, containing four repeats. Samples of faeces from 30 gyrfalcons were examined for the presence of microsporidia spores, using microscopical, molecular methods and sequencing. Microscopic analysis showed presence of brightly fluorescing oval shapes of size 1.5 × 3 μm, characteristic of the strain Microsporidia in five samples. The PCR method, using species non-specific (530F/580R) and species-specific (ECUNR/ECUNF) primers, proved the presence of E. cuniculi spores in two samples. After sequencing were confirmed, E. cuniculi genotype II which implies new host species for this parasite.

Human pathogenic microsporidia detection in agricultural samples: method development and assessment

A detection method was developed and assessed for the sensitive recovery of microsporidia from livestock fecal and manure-impacted environmental samples. Sensitive recovery of microsporidia was achieved when samples were subjected to 1) purification by sucrose floatation, 2) DNA extraction using the Qiagen QIAamp DNA Stool Mini Kit, 3) polymerase chain reaction (PCR) analysis using generic primers for microsporidia, and 4) DNA sequence analysis to identify which microsporidia were present in each sample. Livestock fecal and wastewater samples were inoculated with 1,000 and 100 Encephalitozoon intestinalis spores/g or ml of feces or wastewater. For cattle wastewater, ten of ten replicates were positive by PCR at concentrations of 1,000 spores/ml, and two of ten replicates were positive at concentrations of 100 spores/ml. For swine wastewater, ten of ten replicates were positive at concentrations of 1,000 spores/ml, and four of ten replicates were positive at concentrations of 100 spores/ml. For cattle feces, three of ten replicates were positive at the concentration of 1,000 spores/g. Several environmental samples were screened using this method, with two of 34 samples positive for human pathogenic microsporidia. To our knowledge, this is the first report of Encephalitozoon cuniculi detection in swine feces and wastewater.

Zoonotic potential of the microsporidia

Microsporidia are long-known parasitic organisms of almost every animal group, including invertebrates and vertebrates. Microsporidia emerged as important opportunistic pathogens in humans when AIDS became pandemic and, more recently, have also increasingly been detected in otherwise immunocompromised patients, including organ transplant recipients, and in immunocompetent persons with corneal infection or diarrhea. Two species causing rare infections in humans, Encephalitozoon cuniculi and Brachiola vesicularum, had previously been described from animal hosts (vertebrates and insects, respectively). However, several new microsporidial species, including Enterocytozoon bieneusi, the most prevalent human microsporidian causing human immunodeficiency virus-associated diarrhea, have been discovered in humans, raising the question of their natural origin. Vertebrate hosts are now identified for all four major microsporidial species infecting humans (E. bieneusi and the three Encephalitozoon spp.), implying a zoonotic nature of these parasites. Molecular studies have identified phenotypic and/or genetic variability within these species, indicating that they are not uniform, and have allowed the question of their zoonotic potential to be addressed. The focus of this review is the zoonotic potential of the various microsporidia and a brief update on other microsporidia which have no known host or an invertebrate host and which cause rare infections in humans.