Culture of human dermal fibroblasts in collagen gels: modulation of interleukin 1-induced prostaglandin E2 synthesis by an extracellular matrix.

Human dermal fibroblasts, cultured as suspensions in collagen gels and as monolayers, were stimulated with recombinant human interleukin-1 beta (rIL 1 beta) at 72 h, and prostaglandin E2 (PGE2) was assayed 24 h later. Fibroblasts in gels were less responsive to rIL 1 beta than monolayers, PGE2 synthesis increasing from less than 1 ng/microgram DNA without rIL 1 beta to maxima of 11.3 and 32.9 ng/micrograms DNA, with half maximal release occurring at 7.47 and 0.75 pM rIL 1 beta for the gel and monolayer cultures, respectively. Increased PGE2 was first detected 4 h after addition of rIL 1 beta to gels and was inhibited by 10(-5) M indomethacin. The amount of PGE2 synthesized per fibroblast increased with the time the gels had been in culture when stimulated with rIL 1 beta and was proportional to the number of fibroblasts in the gels, but inversely related to the collagen concentration. A common feature of these experiments was significantly greater induction of PGE2 synthesis at higher cell densities in collagen gels. Exogenous 10(-4) M arachidonic acid further increased PGE2 synthesis by rIL 1 beta-stimulated fibroblasts, but the differential in the amount of PGE2 released from fibroblasts at high and low population densities in the gels was maintained. These results are consistent with interleukin 1 (IL 1) stimulating PGE2 synthesis in dermal fibroblasts by increasing cyclooxygenase activity. Furthermore, the results show that dermal fibroblasts have an additional regulatory mechanism, related to the cell population densities or their interactions with an extracellular matrix, to finely modulate the amount of PGE2 synthesized in response to IL 1.