Molecular characterization of Cryptosporidium isolates from beef calves under one month of age over three successive years in one herd in western France.

Cohorts of pre-weaned calves were studied for Cryptosporidium infection over three successive years (2010-2012) in one beef cattle herd in western France. Each year 25-34 calves were sampled weekly from 3 days to one month of age in order to characterize oocyst output, Cryptosporidium species and clinical features associated with infection. Faecal samples were screened for the presence of oocysts using immunofluorescence analysis. DNA was extracted from positive samples and a PCR SSU rRNA followed by RFLP or sequencing was performed. For the subtyping of C. parvum, a gp60 PCR was carried out. Regardless of the year, 92-100% of the animals excreted oocysts on at least one sampling date. Depending on the year of observation, the age of highest prevalence varied. In contrast, the peak of excretion was systematically observed almost at the same age (2nd-3rd week of life) with excretion levels ranging from between 100 and 1.7 × 10(7)oocysts/g of faeces. Differences concerning clinical signs depending on the year of sampling were observed. Different species patterns were observed, with a predominance of C. bovis in the 1st year and a predominance of C. parvum in the last year. Moreover, two zoonotic subtypes of C. parvum, IIaA15G2R1 and IIaA18G2R1, were recorded in different years. This study shows that, in a given farm, the Cryptosporidium species and C. parvum subtypes identified as well as the prevalence of infection and level of excretion may vary greatly and show distinct patterns according to the year.

Molecular characterization of Cryptosporidium isolates from pre-weaned calves in western France in relation to age.

Eighteen pre-weaned female calves from a single beef cattle herd in western France were sampled weekly from birth to 21/2 months of age in order to characterize Cryptosporidium oocyst output. 182 fecal samples were screened for the presence of oocysts after concentration using immunofluorescence analysis. DNA was extracted from positive samples and a PCR-RFLP protocol, with the restriction enzyme SspI and MboII, to amplify the partial SSU rRNA gene was performed. For the subtyping of Cryptosporidium parvum, a gp60 PCR was carried out. All animals excreted oocysts at at least one sampling date and 80% of the calves presented a mild diarrhea at at least one occasion, with no mortality. The prevalence of excretion reached 94% when calves were 17-23 days of age. The mean number of oocysts at the peak of excretion (10-16 days) was 5 × 10(5) oocysts per gram of feces. PCR-RFLP analysis was successful for 61 of 84 positive samples: 14 were identified as C. parvum, 15 as Cryptosporidium bovis, and 22 as Cryptosporidium ryanae. Ten mixed infections with all combinations of these species were also identified. Calves excreted the following Cryptosporidium species: C. parvum between 7 and 27 days of age, C. bovis between 11 and 38 days and C. ryanae from 19 to 72 days. The IIaA15G2R1 zoonotic subtype of C. parvum subtype was the only subtype identified. We observed the presence of different Cryptosporidium species depending on the age of the animals. This study showed that C. parvum and C. bovis can infect beef calf neonates at similar levels of oocyst excretion with or without clinical signs and that C. parvum isolates had zoonotic potential.

Molecular characterization of Cryptosporidium spp. in pre-weaned kids in a dairy goat farm in western France.

A longitudinal study was undertaken to characterize the course of Cryptosporidium infection in a dairy goat farm located in western France. Two cohorts of twenty-five and fifteen animals, respectively, were sampled once a week from birth to weaning. Each individual fecal sample was screened using direct immunofluorescence (IFT) and if found positive, the Cryptosporidium species was identified using PCR analysis. Seventeen (68% [95% CI: 44-91]) animals were positive at least once during the first study and 14 (93% [95% CI: 80-100]) during the second, after IFT examination. In the first study, the age at first excretion was 17 days and the peak of excretion (mean arithmetic excretion: 22,700 oocysts per gram (opg) of feces) was recorded when kids were between 22 and 28 days old. For the second study, the age at first excretion was 10 days and the peak of excretion (mean arithmetic excretion: 3.4 × 10(6)opg) was recorded in animals aged between 10 and 14 days. Clinical signs were observed only in animals of the second cohort. DNA sequence analysis at the 18S ribosomal RNA locus was successful for 9 of the 27 IFT-positive samples in the first cohort and for 10 of the 34 positive isolates in the second cohort. All isolates were identified as Cryptosporidium xiaoi except one which was identified as Cryptosporidium parvum. Our results confirm that goat kids are hosts for C. parvum and C. xiaoi and that infection by C. xiaoi may be associated with mild clinical signs.

Eimeripain, a cathepsin B-like cysteine protease, expressed throughout sporulation of the apicomplexan parasite Eimeria tenella.

The invasion and replication of Eimeria tenella in the chicken intestine is responsible for avian coccidiosis, a disease that has major economic impacts on poultry industries worldwide. E. tenella is transmitted to naïve animals via shed unsporulated oocysts that need contact with air and humidity to form the infectious sporulated oocysts, which contain the first invasive form of the parasite, the sporozoite. Cysteine proteases (CPs) are major virulence factors expressed by protozoa. In this study, we show that E. tenella expresses five transcriptionally regulated genes encoding one cathepsin L, one cathepsin B and three cathepsin Cs. Biot-LC-LVG-CHN2, a cystatin derived probe, tagged eight polypeptides in unsporulated oocysts but only one in sporulated oocysts. CP-dependant activities were found against the fluorescent substrates, Z-FR-AMC and Z-LR-AMC, throughout the sporulation process. These activities corresponded to a cathepsin B-like enzyme since they were inhibited by CA-074, a specific cathepsin B inhibitor. A 3D model of the catalytic domain of the cathepsin B-like protease, based on its sequence homology with human cathepsin B, further confirmed its classification as a papain-like protease with similar characteristics to toxopain-1 from the related apicomplexan parasite, Toxoplasma gondii; we have, therefore, named the E. tenella cathepsin B, eimeripain. Following stable transfection of E. tenella sporozoites with a plasmid allowing the expression of eimeripain fused to the fluorescent protein mCherry, we demonstrated that eimeripain is detected throughout sporulation and has a punctate distribution in the bodies of extra- and intracellular parasites. Furthermore, CA-074 Me, the membrane-permeable derivative of CA-074, impairs invasion of epithelial MDBK cells by E. tenella sporozoites. This study represents the first characterization of CPs expressed by a parasite from the Eimeria genus. Moreover, it emphasizes the role of CPs in transmission and dissemination of exogenous stages of apicomplexan parasites.