We have previously identified a gene, beta ig-h3, which is highly induced in A549 cells (human lung adenocarcinoma) after growth arrest by transforming growth factor-beta. The beta ig-h3 gene encodes a 683-amino-acid secretory protein termed beta IG-H3, and treatment of several cell lines with transforming growth factor-beta results in increased secretion of beta IG-H3 into cell culture supernatants. In this report, we further characterize beta IG-H3 with respect to its synthesis and function. Primary human foreskin fibroblasts grown in monolayer culture produced beta IG-H3 mRNA and secreted beta IG-H3 protein into the growth media. Treatment of these cells with transforming growth factor-beta led to an increase in beta IG-H3 mRNA and protein. Cells grown on three-dimensional scaffolds secreted beta IG-H3 into the extracellular matrix, as judged by immunostaining with anti-beta IG-H3 antibodies. beta IG-H3 was also detected in normal human skin, especially in the papillary dermis. Finally, we show that recombinant beta IG-H3 supported attachment and spreading of dermal fibroblasts, suggesting that beta IG-H3 may function as an extracellular attachment protein in skin.
A human dermal replacement has been developed by seeding human neonatal dermal fibroblasts onto a biosorbable polyglactin (polyglycolide/polylactide) mesh and culturing in a bioreactor. The mesh provides the proper environment for the cells to attach, grow in a three-dimensional array, and establish a tissue matrix over a 2- to 3-week culture period. The dermal replacement has been characterized and found to contain a variety of naturally occurring dermal matrix proteins, including fibronectin, glycosaminoglycans, and collagen types I and III. To efficiently and reproducibly produce this dermal tissue equivalent, a closed, single-pass perfusion system was developed and compared with a static process. In the single-pas perfusion system, growth medium (containing ascorbic acid) was perfused around the 4 x 6 in. pieces of mesh at specific flow rates determined by nutrient consumption and waste production rates. The flow rates used for this system indicate that a diffusion-limited regime exists with a mean residence time greater than 1 h for essential nutrients and factors. By controlling glucose concentrations in the system to a delta of 0.70 g/L from the inlet to the outlet of the bioreactor, it took 6 fewer days to grow a tissue similar to that produced by the static system.
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