Maintained function of primary human hepatocytes by cellular interactions in coculture: implications for liver support systems.

The application of primary hepatocytes in hybrid artificial liver systems has been hampered by the gradual loss of differentiated morphology and function in vitro. Therefore, we have established a coculture model of autologous human hepatocytes and biliary epithelial cells (BEC) in collagen gel in the presence of hepatotrophic growth factors. Furthermore, we examined the effect of hepatocyte cell perfusion in a women multicompartment capillary membrane system. Normal hepatocytes isolated from human liver produced albumin for more than 2 weeks in serum-free media, and were further stimulated by conditioned medium. When cocultured with BEC, albumin secretion was greatly enhanced, suggesting that cellular interactions promote tissue-specific differentiation. When perfused in bioreactors, albumin levels were maintained at steady state for longer than 2 weeks. These data indicate that differentiation of primary hum hepatocytes can be maintained by coculture interactions and three-dimensional hybrid organ devices, providing appropriate growth factors and matrix for tissue regeneration.

[Use of normal human hepatocytes in a hybrid organ system]. / Einsatz von normalen humanen Hepatozyten in einem hybriden Organsystem.

Using the bioreactor model developed by J. Gerlach, we examined the potential of normal human hepatocytes for application in bioartificial liver devices. From normal human donor livers 1.5 x 10(8) hepatocytes were isolated. Hepatocytes were perfused in a woven multi-compartment capillary system in serum-free culture medium containing ammoniachloride over a period of 2 weeks. These cells demonstrated a well differentiated ultrastructure with formation of junctional complexes and bile canaliculi between adjacent cells. During reactor run, a constant albumin synthesis with levels above 11 mg/ml and maintenance of urea production and lignocaine metabolism (MEGX-test) were detected. These initial results indicate that normal human hepatocytes express typical morphology and ultrastructure and are able to keep differentiated functions in suitable perfusion models. Combination of the distinct human liver cell populations might enable promotion of further specific functions (clotting factors) and induction of liver cell proliferation.