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American Journal of Pathology, Vol 148, 1473-1492, Copyright © 1996 by American Society for Investigative Pathology

REGULAR ARTICLES

Blast-like cell compartment in carcinogen-induced proliferating bile ductules

PM Novikoff, A Yam and I Oikawa
Department of Pathology, Albert Einstein College of Medicine, Bronx, New York 10461, USA.

Small non-epithelial cells with morphological features of blast-like cells are found within a proliferating intrahepatic biliary system after institution in rats of a diethylnitrosamine, 2- acetylaminofluorene, partial hepatectomy carcinogenesis protocol. Two to three days after the partial hepatectomy step of the carcinogen protocol, the small blast-like cells are evident beneath a layer of bile ductule epithelial cells that line the walls of the bile ductules. The basally located small cells are not exposed to the bile ductule lumen or to the surrounding basal lamina. They ranged in size from 3.0 to 5.0 microns, exhibit an undifferentiated phenotype, including a high nucleus-to-cytoplasm ratio and no to minimal differentiated cytoplasmic and surface structures. Mitosis of blast-like cells are evident, and their nuclei express proliferating nuclear cell antigen. The ductal blast-like cells do not express cytokeratin 19, oval cell antigen 270.38, or actin immunoreactivity, in contrast to bile ductule epithelial cells. The basal cells, as well as bile ductule epithelial cells, are negative for a panel of T and B lymphocyte surface markers in contrast to lymphocytes present in the connective tissue stroma surrounding the bile ductules and throughout the hepatic parenchyma. Within some segments of the biliary system, some of the ductal blast- like cells increased in size to approximately 10 microns and showed increased amounts of cytoplasmic organelles and plasma membrane filapodia but did not develop the polarized phenotype of bile ductule epithelial cells (ie, apical microvilli, desmosomes, connections to bile ductule cells, and exposure to duct lumen); however, their nuclear morphology was essentially similar to the smaller basal cells. We also found bile ductules to contain two types of polarized epithelial cells, one with the characteristic oval nucleus of the oval/bile ductule epithelial cells and the other, transitional epithelial cells with a rounder nucleus and prominent nucleoli. The transitional cells exhibit a similar apical-basal polarity and antigenic phenotype as the oval/bile ductule epithelial cells. However, transitional cells are larger and have an overall less dense cytoplasm than the bile ductule epithelial/oval cells, and some show apical microvilli changes and small catalase-positive peroxisomes. These observations indicate that a greater diversity of cell types exist within intrahepatic bile ductules of rats treated with carcinogens. Furthermore, the nonpolarized ductal blast-like cells undergo proliferation and are significantly different in phenotype from other hepatic cells previously reported as candidates for liver progenitor cells.

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