Risk of Chlamydia abortus transmission via embryo transfer using in vitro produced early bovine embryos.

The objectives of this study were to determine (i) whether Chlamydia (C.) abortus would adhere to the intact zona pellucida (ZP-intact) of early in vitro produced bovine embryos; (ii) whether the bacteria would adhere to the embryos (ZP-free) after in vitro infection; and (iii) the efficacy of the International Embryo Transfer Society (IETS) washing protocol. The experimentation was made twice. For each replicate 100 (8-16-cell) bovine embryos produced in vitro were randomly divided into 10 batches. Height batches (4 ZP-intact and 4 ZP-free) of 10 embryos were incubated in a medium containing 4 × 107Chlamydia/ml of AB7 strain. After incubation for 18 h at 37 °C in an atmosphere of 5% CO2, the embryos were washed in accordance with the IETS guidelines. In parallel, two batches (1 ZP-intact and 1 ZP-free) of 10 embryos were subjected to similar procedures but without exposure to C. abortus as a control group. The 10 washing fluids from each batch were collected and centrifuged for 1 h at 13,000×g. Each batch of washed embryos and each wash pellets were tested using PCR. C. abortus DNA was found in all ZP-intact and ZP-free batches of 10 embryos after 10 successive washes. For ZP-intact infected embryos, Chlamydia-DNA was also detected in all 10 wash baths for two batches (2/8) of embryos, whereas for ZP-free infected embryos, Chlamydia-DNA was detected in all 10 wash baths for 6/8 batches of embryos. In contrast, none of the embryos or their washing fluids in the control batches was DNA positive. The bacterial load for batches of 10 embryos after the 10 wash baths was significantly higher for batches of ZP-free embryos (20.7 ±â€¯9 × 103 bacteria/mL) than for batches of ZP-intact embryos (0.47 ±â€¯0.19 × 103 bacteria/mL). These results demonstrate that C. abortus adheres to the ZP as well as the early embryonic cells of in vitro produced bovine embryos after in vitro infection, and that the standard washing protocol recommended by the IETS fails to remove it.

Caprine arthritis encephalitis virus (CAEV) replicates productively in cultured epididymal cells from goats.

The transmission of CAEV from male goats has not been well studied and the target cells that support viral replication are not well characterized. Epididymal epithelial cells (EECs) are important and play a key role in the fertility and motility of spermatozoa. During their transit, spermatozoa incorporate several EEC-produced proteins into their plasma membranes to stabilize them and prevent premature acrosomal reaction. This intimate interaction between spermatozoa and EECs may increase the likelihood of the infection of semen with CAEV if epididymal tissue is productively infected and sheds the virus into the duct. The aim of this study was to examine whether goat EECs are susceptible to CAEV infection in tissue culture. Cells were isolated from epididymides obtained from goats that were sampled from a certified-CAEV-free herd. Cultured cells were then inoculated with a molecularly-cloned isolate of CAEV (CAEV-pBSCA). Inoculated cells developed cytopathic effects (CPE), showing numerous multinucleated giant cells (MGC) in cell-culture monolayers. Expression of CAEV proteins was detected by immunofluorescence using an anti-p28, Gag-specific antibody. The culture medium of inoculated cells was shown to contain high titers (10(6) tissue culture infectious doses 50 per ml (TCID50/ml)) of infectious, cytopathic virus when assayed using indicator goat synovial membrane (GSM) cells. Our findings clearly demonstrate that cells of the buck genital tract are targets of CAEV and are thus a potential reservoir that sheds infectious CAEV into the semen of infected animals. These data suggest the use of sperm from CAEV-free goat males for artificial insemination in genetic selection programs to minimize CAEV dissemination.

Detection of Coxiella burnetii, the agent of Q fever, in oviducts and uterine flushing media and in genital tract tissues of the non pregnant goat.

The aim of the present study was the detection and quantification of Coxiella burnetii DNA in the flushing media (oviducts and uterine horns) and genital tract tissues of non pregnant goats from 20 goats chosen at random from 86 goats originating from 56 different breeding herds in south-west France. The serological prevalence rate of C. burnetii in the study population was 70.3%. The DNA of C. burnetii was identified using conventional PCR in the flushing media from the oviducts and uterus in 8/20 goats (40%) and in genital tract tissues (oviduct, uterus and ovary) in 5/20 goats (25%). This study clearly shows for the first time that the media used to flush the oviducts or uterine horns, collected using the standard embryo harvesting technique in goats, are susceptible to infection with C. burnetii. The 16 conventional PCR-positive samples were also analyzed using real-time PCR. The bacterial load of the oviduct and uterine flushing media varied from 2.9×10(4) to 7.5×10(6) bacteria per flushing medium, while the bacterial load of the tissue samples varied from 1.0×10(2) to 1.5×10(5) bacteria per mg of tissue. The infection of genital tract flushing media and tissues is a risk factor for the transmission of C. burnetii from donor to recipient during embryo transfer or to the embryo and fetus when gestation is pursued to term.