Variant subclones of the rat hepatoma cell line FU5-5 have been isolated that are altered in their production of rat serum albumin. Three of these variants, isolated in a random screening, have been categorized as high, intermediate, and low producers. They secrete albumin into the culture medium at different rates: 16, 1.7, and 0.3 microgram/mg cell protein/48 h. A fourth variant, isolated on the basis of altered morphology, secretes no detectable albumin. Unlike the albumin-producing variants, this null variant is also deficient in the level and inducibility of tyrosine aminotransferase activity. Albumin biosynthesis as determined in pulse-labeling experiments is affected similarly in the four variants, yielding albumin synthetic rates of 0.24, 0.035, 0.006, and less than 0.002% of total protein synthesis. The translatable albumin messenger RNA content in these variants was measured using a rabbit reticulocyte lysate system. The null variant contains no detectable mRNA, and the three quantitative variants contain levels of translatable albumin messenger RNA corresponding to 0.07, 0.03, and 0.005% of total stimulated polypeptide synthesis. The highest producing variant contains less translatable albumin mRNA than expected on the basis of cellular biosynthetic measurements, suggesting a translation efficiency difference in this clone. Cell hybrids constructed by fusing the high-producing clone and the null variant produce little or no albumin. This extinction indicates that the null variant contains a diffusible regulatory factor capable of decreasing albumin gene expression. The relatively stable and discrete heritable phenotypic changes exhibited by these clones may serve as a model for similar changes that occur during hepatic differentiation.
Normal rat hepatocytes have been fused with highly differentiated rat hepatoma cells. Some of the hybrids express a physiologically significant level of activity of the urea cycle enzyme ornithine carbamoyltransferase (OCT), a liver-specific function not found in the hepatoma cells. These hybrids have 10% of the adult rat liver OCT specific activity, incorporate 3H-ornithine into protein arginine, and can be selectively grown in arginine-free medium supplemented with ornithine. Somatic cell hybridization of normal differentiated cells with highly differentiated neoplastic cells of the same tissue type may be useful as a general method for obtaining permanent cell lines with new tissue-specific phenotypes.
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