Morphological and radiochemical evidence for the metabolism of exogenous proteins by the preimplantation sheep blastocyst.

The ability of the trophoblast of the ovine preimplantation blastocyst to take up and metabolise proteins has been investigated using two experimental approaches, microscopical and radiochemical. The ultrastructure of the expanded blastocyst obtained from 14 and 17 day pregnant ewes was examined. The morphology of tissues maintained in culture for 24 h has been compared with that of fresh tissues. After culture, the cellular morphology of the explants was well preserved. Fresh and 24 h cultured tissues were incubated with horse-radish peroxidase and ferritin and these proteins subsequently were found to be localized in coated pits, caveolae and secondary lysosomes of the trophoblast. Comparison of the uptake of [3H]dextran and of 125I-labelled bovine serum albumin indicated that proteins could be taken up by cultured tissue by mechanisms in addition to simple fluid phase endocytosis. During culture of explants of blastocyst with 125I-labelled bovine serum albumin, a large fraction of the radioactivity taken up by the tissue appeared in the TCA-soluble fraction of the culture medium indicating that cultured trophoblast hydrolysed proteins. That amino acids released from captured protein could be used for protein synthesis by the trophoblast was indicated by the labelling of tissue and medium proteins after culturing explants with beta-lactamase labelled with [14C]leucine. A major product (Mr approximately 17 x 10(3) present in the medium was likely to have been ovine trophoblast protein-1. It is concluded that, during the expansion of the ovine blastocyst, the trophoblast has the ability to take up proteins, transport them to lysosomes and degrade them to amino acids which are used for protein synthesis. Thus proteins, as well as free amino acids, present in the histotrophe may be an important source of nitrogen for the sheep conceptus in the critical period just prior to implantation.