Effects of a partially purified factor from chick embryos on macromolecular synthesis of embryonic pancreatic epithelia

Essentially normal development of early embryonic pancreatic epithelium occurs only in the presence of mesenchymal tissues ( Golosow and Grobstein, 1962), or a particulate fraction (MF) obtained from extracts of chicken embryos (Rutter et al., 1964). We have shown that this fraction also stimulates the incorporation of thymidine- 3H into DNA. This stimulatory activity was detected in particulate fractions from homogenates of several mesodermal tissues from rat and chick embryos, as well as in fibroblasts cultured from these tissues, but not in embryonic epithelial tissues. This activity may thus be related to the mesodermal tissue requirement for pancreatic development. MF was solubilized and partially purified from homogenates of chick embryos. It is stable to collagenase, hyaluronidase, and neuraminidase. Activity is lost by heating and by treatment with trypsin. It is presumed, therefore, that the factor is associated with a protein that is not collagen. The effects of the MF upon macromolecular synthesis were tested in pancreatic tissues from 12-day rat embryos. When isolated epithelia were cultured in the absence of mesoderm or MF, the rate of thymidine- 3H incorporation into DNA decreased to low levels. The specific activities of DNA polymerase and deoxycytidylate deaminase in epithelial extracts also declined. In contrast, the rate of thymidine- 3H incorporation into DNA increased 5- to 8-fold over the initial rates in epithelia cultured with MF. Concurrently DNA polymerase activity in tissue extracts increased by 2- to 3-fold; deoxycytidylate deaminase activity declined slightly. MF also affected RNA and protein synthesis. The rate of leucine- 3H incorporation into protein and uridine- 14C incorporation into RNA in isolated pancreatic epithelia was comparable to that of intact rudiments. Cultures in the presence of MF increased these rates severalfold after 20 hr. These results suggest that MF, and by implication, mesoderm, may supply a growth factor for epithelial tissue and thus serves a permissive rather than a determining role in the differentiation process in pancreatic development.