Experiments have been performed to define conditions for the primary culture of human exocrine pancreas, as a first step towards molecular reconstruction experiments of pancreatic neoplasia. Normal human exocrine pancreas was digested using collagenase and dispase and the resulting cellular aggregates were cultured in vitro. The phenotype of the digested pancreatic cells was almost exclusively acinar (amylase-positive, keratin 19 and mucin antigens-negative), yet within 4 days of culture the cells had taken on a ductal phenotype (amylase-negative, keratin 19 and mucin antigens-positive). The kinetics of these observations exclude the possibility of overgrowth of the acinar population by a ductal sub-population, and selective adherence is excluded by examination of those cells that do not adhere, which are representative of the initiating population. We interpret these data as indicating that, under the conditions of culture, the acinar cell phenotype is not stable and can transdifferentiate to a ductal phenotype. Taken together with recent data from transgenic animals, this in vitro observation has possible implications for our view of the pathogenesis of pancreatic neoplasia.