The sheep (Ovis aries) H19 gene: genomic structure and expression patterns, from the preimplantation embryo to adulthood.

H19, which is one of the most abundantly expressed imprinted genes during mammalian embryonic and foetal development, has been cloned from a ruminant. The sheep (Ovis aries) gene contains five exons interspersed by four exceptionally small introns; only short stretches of the nucleotide sequence, particularly in exon 1, show good homology with the human gene. The size of the exons and introns and the sequences around the splice junctions however, are well conserved between the species. The gene encodes a approximately 2.6 kb transcript which contains several potential short open reading frames, none of which is conserved between the ovine and human or murine transcripts, supporting a previous hypothesis that the gene product is the untranslated RNA itself. H19 mRNA is highly abundant in most ovine embryonic and foetal tissues of mesodermal and endodermal origins but was not detected in tissues of ectodermal origin such as the trophectoderm and the foetal brain. Expression of H19 in the extraembryonic membranes was detected only after the ovine conceptus began attachment to the endometrium and the embryo itself had undergone early organogenesis. This may be regarded as the first step in implantation; thus, in comparison with the mouse, the initiation of H19 expression appears to be determined by the timing of implantation rather than by the stage of development of the embryo itself. In most tissues, H19 expression is temporally linked to IGF2, a major foetal growth factor. The exceptions were the elongated blastocyst, the trophectoderm and brain, where low levels of IGF2 were observed in the absence of detectable H19. The abundance of H19 mRNA was in general, directly correlated with IGF2 mRNA abundance in mesodermal and endodermal tissues, suggesting that the two ovine genes share common regulatory elements that co-ordinately regulate their expression. Though both are generally regarded as embryonic and foetal genes, their expression was still maintained at a fairly high level in the adult sheep liver, lung, skeletal muscle, adrenal gland and kidney, suggesting that these organs are significant sources of IGF II in the adult.