Human preterm amnion cells cultured in 3-dimensional collagen I and fibrin matrices for tissue engineering purposes

Objective: In this study, human preterm amnion cells were investigated in 3-dimensional (3D) cell-matrix Culture systems in an attempt to design therapeutic strategies for preterm premature rupture of the membranes. Study design: Three-dimensional collagen I and fibrin cell-containing biomatrices were created to mimic the architecture of native amnion. Amnion mesenchymal cells were embedded in 3D matrices, and epithelial cells were placed on top of these matrices. Cell viability and morphology Were visualized by Dil-ac-LDL, F-actin, and nuclear staining. Proteolytic activity of matrix metalloproteinases (MMPs) was investigated using gelatine zymography. Results: Preterm amnion epithelial and mesenchymal cells Cultured in collagen I and fibrin matrices assume cell morphologies similar to those observed in vivo. Mesenchymal cells were capable of remodelling collagen I, as seen by extensive volume contraction, by 40%, at day 1 and 80%, at day 5. Matrix contraction was independent of the presence of epithelial cells, and Could not be inhibited by GM6001 and/or aprotinin. No contraction was observed in Fibrin matrices over 8 days. The migratory response of mesenchymal cells Cultured in 3D fibrin matrices Supplemented with fibronectin was associated with specific activated MMP-9. Conclusion: Three-dimensional Fibrin matrices might be useful in amnion cell tissue engineering, including cell-matrix transplantation. (C) 2005 Mosby, Inc. All rights reserved.