Skin basement membrane and extracellular matrix proteins characterization and quantification by real time RT-PCR.

Three-dimensional gelatin-chondroitin 6 sulphate-hyanuronic acid (gelatin-C6S-HA) biomatrices were used as the scaffold to investigate the phenotypic and molecular expression of basement membrane (BM) and extracellular matrix (ECM) proteins in vitro. The cells were cultured in three different culture conditions: keratinocytes (K) monoculture, or dermal fibroblasts (FB) monoculture, or organotypic keratinocytes and dermal fibroblasts (K&FB) coculture model. The deposition of BM proteins and ECM proteins secreted by these two kinds of cells was quantitatively characterized by real time RT-PCR and examined by immunohistochemistry. The results showed that K expressed specific keratin and E-cadherin proteins, while type I collagen was secreted by FB. FB were shown to synthesize and deposit laminin 5, type IV collagen, and type VII collagen, whereas K dominantly produced integrin alpha 6 and integrin beta 4 as well as laminin 5. Interestingly, the integrin beta 4 was expressed neither in K monoculture nor in FB monoculture, but was seen in organotypic K&FB coculture model in the early culture stage. The histology studies revealed numerous features of epidermalization including a well organized basal layer of distinct cylindrical cells, granular and a horny layer, as well as complete BM formation. These results indicated that K and FB not only kept their phenotype when culturing on 3D scaffold, but also worked together to reconstruct dermal-epidermal basement membrane zone. In brief, our results directly provide the quantification in the expression of BM and ECM proteins by using real time RT-PCR in mRNA level and morphological appearance by immunostain in protein level.