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Vertebrate reproductive science and technology
RESEARCH ARTICLE

101 RISK OF COXIELLA BURNETII TRANSMISSION BY EMBRYO TRANSFER USING IN VITRO EARLY BOVINE EMBRYOS

A. Alsaleh A , J. L. Pellerin A , D. M. Garcia A , D. Tainturier A and F. Fieni A
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LUNAM University, Oniris, (Nantes-Atlantic National College of Veterinary Medicine, Food Science and Engineering), Department of Research into the Health Risk and Biotechnology of Reproduction, UPSP 5301 DGER, Nantes, France

Reproduction, Fertility and Development 26(1) 165-165 https://doi.org/10.1071/RDv26n1Ab101
Published: 5 December 2013

Abstract

Coxiella burnetii, an obligate intracellular bacterium of worldwide distribution, is responsible for Q fever. Domestic ruminants are the main sources of infection for humans. In cattle, infection is frequently asymptomatic, but it may cause abortion, reproductive failure (metritis, placentitis, and infertility), and economic losses. A previous study in goats showed that Coxiella burnetii had a strong tendency to cling to the zona pellucida (ZP) after in vitro infection and the washing procedure recommended by IETS for bovine embryos failed to remove it (Alsaleh et al. 2013 Theriogenology). The aims of this study were to determine (1) whether Coxiella burnetii would adhere to the intact ZP (ZP-intact) of early in vitro-produced bovine embryos, (2) whether the bacteria would adhere to or infect the embryo cells (ZP-free) after in vitro infection, and (3) the efficiency of the washing protocol recommended by the IETS. One hundred and sixty 8- to 16-cell bovine embryos produced in vitro were randomly divided into 16 batches of 10 embryos each. Twelve batches (8 ZP-intact and 4 ZP-free) were incubated in medium containing C. burnetii CbB1 (IASP, INRA Tours, France). After 18 h of incubation at 37°C and 5% CO2 in air, the embryos were washed in 10 successive baths of a phosphate buffer saline (PBS) and 5% FCS solution in accordance with the IETS guidelines. In parallel, 4 batches (2 ZP-intact and 2 ZP-free) were subjected to similar procedures but without exposure to C. burnetii to act as controls. The 10 washing fluids for all batches were collected and centrifuged for 1 h at 13 000 × g. Embryo and pellet washing were tested by C-PCR. Coxiella burnetii DNA was found in all ZP-intact and ZP-free embryo batches after 10 successive washes. It was also detected in the first 4 washing fluids for ZP-intact embryos and in the 10th washing fluid for 2 of the 4 batches of ZP-free embryos. In contrast, none of the embryos or their washing fluids in the control batches were DNA positive. These results demonstrate that C. burnetii adhere and (or) penetrate the early embryonic cells as well as the ZP of in vitro bovine embryos after in vitro infection and the standard washing protocol recommended by the IETS for bovine embryos failed to remove it. The persistence of these bacteria after washing makes the embryo a potential means of transmission of the bacterium during embryo transfer from infected donor cows to healthy recipients or their offspring, or both. Further studies are needed to investigate whether enzymatic or antibiotic treatment of bovine embryos infected by C. burnetii would eliminate the bacteria from the ZP.