Summary
A clonal strain of rat pituitary tumor cells (GH3) has continued to produce the pituitary protein hormones growth hormone (GH) and prolactin during 5 years of continued growth in monolayer culture. Studies of the effects of external stimuli have indicated that, in spite of the physical similarity of these protein hormones (each is a single polypeptide of molecular weight ≈23,000), their production is controlled by different mechanisms. Addition of hydrocortisone (HC) (3×10−6 m) to the growth medium leads, after a lag of 12 to 24 hr, to an increased relative rate (rate in experimental cells divided by rate in control cells) of GH production. The relative rate reaches a maximum of 5 to 8 at 30 to 100 hr. Stimulation by HC of GH production is observed in cells growing in either the stationary or the exponential phase of growth. Indirect estimates indicate that, in exponentially growing cells, GH represents about 2% and 14% of the total protein synthesized by control and fully stimulated cells, respectively. Maintenance of the stimulated state requires HC. HC decreases both the growth rate of GH3 cells and their incorporation of amino acids into acid-insoluble material. At the same time that HC stimulates GH production it decreases the relative rate of prolactin production to about 0.2 to 0.3. On the other hand, addition of acid extracts of bovine hypothalamus, cerebral cortex, kidney, or liver (0.3 to 1.0 mg of protein per ml) to the medium leads to an increase of the relative rate of prolactin production to 6 to 9, while decreasing the relative rate of GH production to about 0.5. Chromatographic fractionation of simple extracts of bovine liver has yielded a macromolecular, heatlabile fraction exhibiting these effects at a concentration as low as 20 μg per ml. GH3 cells which have been adapted to growth in suspension culture produce both GH and prolactin. HC is observed to stimulate GH production and suppress prolactin production by cells growing in this state, without affecting the growth rate of the cells.
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References
Buonassisi, V., G. Sato, and A. I. Cohen. 1962. Hormone-producing cultures of adrenal and pituitary tumor origin. Proc. Nat. Acad. Sci. U. S. A. 48: 1184–1190.
Tomkins, G. M., T. D. Gelehrter, D. Granner, D. Martin, Jr., H. H. Samuels, and E. B. Thompson. 1969. Control of specific gene expression in higher organisms. Science 166: 1474–1480.
Tashjian, A. H., Jr., Y. Yasumura, L. Levine, G. H. Sato, and M. L. Parker. 1968. Establishment of clonal strains of rat pituitary tumor cells that secrete growth hormone. Endocrinology 82: 342–352.
Ham, R. G. 1963. An improved nutrient solution for diploid Chinese hamster and human cell lines. Exp. Cell Res. 29: 515–526.
Bancroft, F. C., and A. H. Tashjian, Jr. Growth in suspension culture of rat pituitary tumor cells which produce growth hormone and prolactin. Exp. Cell Res., in press.
Eagle, H. 1959. Amino acid metabolism in mammalian cell cultures. Science 130: 432–437.
Levine, L. 1968. Microcomplement fixation. In: D. M. Weir, (Ed.),Handbook of Experimental Immunology. Blackwell Scientific Publications, Ltd. Oxford, pp. 707–719.
Tashjian, A. H., Jr., L. Levine, and A. E. Wilhelmi. 1968. Studies of growth hormone by micro-complement fixation. Ann. N. Y. Acad. Sci. 148: 352–371.
Tashjian, A. H., Jr., F. C. Bancroft, and L. Levine. 1970. Production of both prolactin and growth hormone by clonal strains of rat pituitary tumor cells: differential effects of hydrocortisone and tissue extracts. J. Cell Biol., 47: 61–70.
Lowry, O. H., N. F. Rosebrough, A. L. Farr, and R. J. Randall. 1951. Protein measurement with the Folin phenol reagent. J. Biol. Chem. 193: 265–275.
Bancroft, F. C., L. Levine, and A. H. Tashjian, Jr. 1969. Control of growth hormone production by a clonal strain of rat pituitary cells: Stimulation by hydrocortisone. J. Cell Biol. 43: 432–441.
Takemoto, H., K. Yokoro, J. Furth, and A. I. Cohen. 1962. Adrnotropic activity of mammo-somatotropic tumors in rats and mice. I. Biological aspects. Cancer Res. 22: 917–924.
Puck, T. T., P. I. Marcus, and S. J. Cieciura. 1956. Clonal growth of mammalian cells in vitro. J. Exp. Med. 103: 273–284.
Sonnenschein, C., U. I. Richardson, and A. H. Tashjian, Jr. 1970. Chromosomal analysis, organ-specific function and appearance of six clonal strains of rat pituitary tumor cells. Exp. Cell Res. 61: 121–128.
Reisfeld, R. A., A. S. Muccilli, D. E. Williams, and S. L. Steelman. 1964. Preparation of rat growth hormone. Nature (London) 201: 821–823.
Ellis, S., R. E. Grindeland, J. M. Nuenke, and P. X. Callahan. 1969. Purification and properties of rat prolactin. Endocrinology 85: 886–894.
Li, C. H., J. S. Dixon, and W.-K. Liu. 1969. Human pituitary growth hormone. XIX. The primary structure of the hormone. Arch. Biochem. Biophys. 133: 70–91.
Li, C. H., J. S. Dixon, T.-B. Lo, Y. A. Pankov, and K. D. Schmidt. 1969. Amino-acid sequence of ovine lactogenic hormone. Nature (London) 224: 695–696.
Bewley, T. A., and C. H. Li. 1970. Primary structures of human pituitary growth hormone and sheep pituitary lactogenic hormone compared. Science 168: 1361–1362.
Bancroft, F. C., and A. H. Tashjian, Jr. Unpublished observations.
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This investigation was supported in part by Research Grant AM 11011 from the National Institute of Arthritis and Metabolic Diseases.
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Bancroft, F.C., Tashjian, A.H. Control of the production of two protein hormones by rat pituitary cells in culture. In Vitro 6, 180–189 (1970). https://doi.org/10.1007/BF02617762
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DOI: https://doi.org/10.1007/BF02617762