The Effect of Corticosterone on the Growth of Perinatal Rat Lung Fibroblasts in Culture: Modulation by the Extracellular Matrix: (Cell culture/endothelial cells/extracellular matrix/fibroblasts/glucocorticoids).

Abstract

Third passage lung fibroblasts from rat pups between the ages of fetal day 17 and postnatal day 15 were allowed to attach onto either tissue culture plastic or an endothelial cell-derived matrix, and were then exposed to different concentrations of corticosterone in culture medium containing 1% charcoal-stripped serum. The effect of the hormone on growth of these cells was assessed after 48 hours of exposure by radiothymidine incorporation into DNA. Lung fibroblasts on plastic responded to the hormone in an age-dependent manner; thus, cells which were obtained during late gestation (days 19-21) and after the third day of extrauterine life were consistently growth-inhibited by corticosterone, whereas those which were obtained from fetal donors prior to day 19 and from neonatal donors (days 0-3 after birth) were stimulated to grow in response to the hormone. On the other hand, cells that were plated onto an endothelial cell-derived matrix showed a different age-related response to the hormone. Thus, lung fibroblasts from all fetal donors and from postnatal donors up until 4-5 days of age were stimulated to grow in response to corticosterone. This modulatory effect of the matrix on the fibroblast response to corticosterone was also seen in early passage fibroblasts. In an attempt to identify the modulatory agent(s) in the extracellular matrix, fibroblasts from day 19 fetal rat lung were challenged with corticosterone in the presence of laminin, fibronectin, type IV collagen, type I collagen, heparin, or chondroitin sulfate. None of these agents exerted a modulatory effect resembling that seen with the extracellular matrix. These results suggest the existence during lung development of a fibroblast-endothelial interaction, the nature of which remains to be elucidated, which may serve to modify the effects of circulating hormones.