Modulation of keratin 14 and alpha-fetoprotein expression during hepatic oval cell proliferation and liver regeneration.

Keratin 14 (K14) expression has recently been demonstrated in cell lines of non-parenchymal hepatic origin (Bisgaard et al., 1993, Mol. Carcinog., 7:60-66; Bisgaard et al., 1991, J. Cell. Physiol., 147:333-343). These cell lines are thought to represent a progeny of a dormant stem cell compartment present in the adult rat liver, which may participate in the restoration of the liver mass after experimental liver injury. Utilizing a combination of 2-acetylaminofluorene (2-AAF) administration and partial hepatectomy to activate liver regeneration by proliferation of oval cells, we examined the modulation of K14 as well as alpha-fetoprotein (AFP) expression in proliferating oval cells and lineages hypothesized to be derived herefrom. We showed by Northern blot and in situ hybridization analyses that K14 and AFP transcripts were initially accumulating in epithelial cells located in subsets of ductal structures in the portal areas. As oval cells infiltrated the liver parenchyma, K14 transcripts were detected in oval cells, in foci of small basophilic hepatocytes, and in structures resembling glandular intestinal-type epithelium. AFP was expressed in oval cells, and at low but detectable levels in foci of basophilic hepatocytes, but not in glandular intestinal-type epithelium. Neither K14 nor AFP transcripts were detected in bile ducts or mature hepatocytes at any time during oval cell proliferation and reconstitution of the liver mass. To further study the modulation of K14 and AFP expression we utilized an in vitro model in which spontaneous transformation of rat liver epithelial (RLE) cells appeared to mimic the process of early differentiation along the hepatic lineage in vivo. We demonstrated that undifferentiated RLE cells at a late passage expressed K14 and vimentin, whereas transformation and differentiation to hepatoblast-like progeny resulted in an abrogation of K14 and vimentin expression and an induction of K18 and AFP. We propose that K14 and AFP are sequentially modulated in subpopulations of oval cells involved in the ongoing reconstitution of the liver mass.