166 CAN COXIELLA BURNETII BE TRANSMITTED BY GOAT EMBRYO TRANSFER?
A. Alsaleh A , J. L. Pellerin A , C. Roux A , M. Larrat A , G. Chatagnon A and F. Fieni AONIRIS, La Chantrerie BP 40706 44307 Nantes, CEDEX 3, France
Reproduction, Fertility and Development 25(1) 231-232 https://doi.org/10.1071/RDv25n1Ab166
Published: 4 December 2012
Abstract
Coxiella burnetii, an obligate intracellular bacterium of worldwide distribution, is responsible for Q fever. Detection of significant bacterial loads in flushing media and tissue samples (oviducts and uterine horns) from the genital tracts of nonpregnant goats is a risk factor for in utero infection and transmission during embryo transfer (Alsaleh et al. 2011 CIMID 34, 355–360). The aim of this study was to investigate (1) whether cells of early goat embryos isolated from in vivo fertilized goats interact with C. burnetii in vitro, (2) whether the embryonic zona pellucida (ZP) protects early embryo cells from infection, and (3) the efficacy of the washing protocol recommend by the IETS for bovine embryos. The study was performed in triple replicate: 12 donor goats, certified negative by ELISA and PCR, were synchronized, superovulated, and subsequently inseminated by Q fever-negative males. Sixty-eight embryos were collected 4 days later by laparotomy. Two-thirds of the resulting ZP-intact and ZP-free 8- to 16-cell embryos (9–9, 11–11, and 4–4 in replicates 1, 2, and 3, respectively) were placed in 1 mL of MEM containing 107 C. burnetii CBC1 (IASP, INRA Tours). After overnight incubation at 37°C and 5% CO2, the embryos were washed according to the IETS procedure. In parallel, the remaining third ZP-intact and ZP-free uninfected embryos (3–3, 5–5, and 2–2 in replicates 1, 2, and 3, respectively) were submitted to the same procedures but without C. burnetii, thus serving as controls. The 10 washing fluids for all batches of each replicate were collected and centrifuged for 1 h at 13 000g. The washed embryos and pellets were tested by PCR. Coxiella burnetii DNA was found in all batches of ZP-intact and ZP-free infected embryos after 10 successive washes. It was also detected in the first 5 washing fluids for ZP-free embryos and in the first 8 washing fluids for ZP-intact embryos. None of the control batches (embryos and washing fluids) were found to contain bacterial DNA. These results clearly demonstrate that caprine early embryonic cells are susceptible to infection by C. burnetii. The bacterium shows a strong tendency to cling to the ZP after in vitro infection, and the washing procedure recommended by the IETS for bovine embryos failed to remove it. The persistence of these bacteria makes the embryo a potential means of transmission to recipient goats. Further studies are needed to investigate whether the enzymatic treatment of caprine embryos infected by C. burnetii would eliminate the bacteria from the ZP.