Macromolecular crowding agent dependent extracellular matrix deposition and growth factor retention in human corneal fibroblast cultures

The major obstacle in the commercialisation and clinical translation of tissue engineered medicines is the required for the development of implantable tissue surrogates prolonged in vitro culture. Macromolecular crowding (MMC) enhances and accelerates extracellular matrix (ECM) deposition, thus offering an opportunity to bridge the gap between research and development in tissue engineered substitutes. However, the optimal MMC agent is still elusive. Herein, we first assessed the biophysical properties of the most widely used MMC agents [κλ carrageenan (κλ CR), λ carrageenan (λ CR) and Ficoll™ cocktail (FC)] and then assessed their effect in basic cell function, ECM deposition and growth factor retention in human corneal fibroblast (hCF) cultures. Dynamic light scattering analysis revealed that both CR macromolecules had significantly lower and higher zeta potential and hydrodynamic radius, respectively, than the FC. None of the MMC agents affected hCF morphology and all induced similar hCF viability, proliferation and metabolic activity. Electrophoresis and immunofluorescence analyses made apparent that at day 10 (longest time point assessed), the FC brought about the highest fibronectin and collagen types I, III, IV, V and VI deposition. Deposited ECM pattern analysis showed that at day 10, the FC induced the lowest lacunarity and normalised end points and the highest fractal dimension and % high density matrix. Further immunofluorescence analysis revealed no significant differences between the groups in vimentin, aldehyde dehydrogenase 3 family member A1, keratocan, paired box protein 6 and α-smooth muscle actin. Importantly, at day 10, the FC resulted in the highest growth factor retention (20 molecules). Our data clearly illustrate a MMC agent dependent cell response, with the FC having the highest positive effect in hCF cultures.