REDR1990 Reproduction in Domestic Ruminants II Maternal Recognition of Pregnancy (5 abstracts)
AFRC Research Group on Hormones and Farm Animal Reproduction. *University of Nottingham, Faculty of Agricultural Science, Sutton Bonington, Loughborough, Leics LEI2 5RD, UK; Institute of Zoology, Regent's Park, London NW1 4RY, UK; and IAPGR Babraham, Cambridge CB2 4AT. UK
Summary. Southern blotting of bovine genomic DNA indicated the presence of at least 3 bovine tIFN genes. The full DNA sequence of one of these genes, thought to be expressed in trophoblast, has been determined, including 193 bp of 5' non-coding region. The inferred amino acid sequence of bovine tIFN is more similar to ovine tIFN (80%) than to bovine IFN-αII (70%). The 5' flanking sequence has some similarity with bovine IFN-αII and may contain a viral response element.
A recombinant bovine αI interferon (Ciba Geigy; brIFN), resembling tIFN, extended oestrous cycle length in sheep when administered by intrauterine infusion over the period, Days 1215 after oestrus, when maternal recognition of pregnancy occurs. Intramuscular injection was only effective at the doses used if given over a longer period (i.e. Days 915).
Our experiments indicate that both tIFN and brIFN inhibit luteolysis by preventing a rise in endometrial oxytocin receptor concentrations, and suggest that tIFN achieves this by extending the time for which progesterone suppresses oxytocin receptor development. Further studies are required to confirm this hypothesis and to elucidate the interaction of the effects of progesterone and tIFN in endometrial cells.
Keywords: trophoblast interferons; pregnancy recognition; luteolysis; embryo
© 1991 Journals of Reproduction & Fertility Ltd