Abstract
Tissue culture, since its inception at the turn of this century, has undergone several stages in its evolution. During the first 40 or 50 years the main emphasis was on observation of cell growth and an overall fascination with the technique. During the second phase of 15 to 20 years the emphasis was on growing large numbers of cells, producing cell populations for quantitative work, and studying neoplastic transformation. Methods were developed which produced cells by the pound. In the third and present phase emphasis is placed on the analysis of cellular interaction, cell differentiation, cell function and, in general, on finding answers to specific questions related to in vivo phenomena.
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References
Ashton, N. (1966). Oxygen and the growth and development of retinal vessels. In vivo and in vitro studies. Amer. J. Opthalmol. 62, 412.
Boyse, E.A., and Old, L.J. (1969). Some aspects of normal and abnormal cell surface genetics. Annu. Rev. Genet. 3, 269.
Buck, R.C. (1963). Histogenesis and morphogenesis of arterial tissue. In “Atherosclerosis and its Origin.” (M. Sandler and G.H. Bourne, eds.), pp. 1–38. Academic Press, New York.
Burkel, W.E., and Kahn, R.H. (1973). An ultrastructural study of human pseudoendothelium propagated in vitro. Anat. Rec. 175, 281.
Burrows, M.T. (1912). A method of furnishing a continuous supply of new medium to a tissue culture in vitro. Anat. Rec. 6, 141.
Coriell, L.L., and McGarrity, G.J. (1968). Biohazard hood to prevent infection during microbiological procedures. Appl. Microbiol. 16, 1895.
Coriell, L.L., McGarrity, G.J., and Horneff, J. (1967). Medical application of dust-free rooms. I. Elimination of airborne bacteria in a research laboratory. Amer. J. Pub. Health 57, 1824.
Daoud, A.S., Fritz, K.E., and Jarmolych, J. (1970). Increased DNA synthesis in aortic explants from swine fed a high cholesterol diet. Exp. Mol. Pathol. 13, 377.
Day, A.J., Newman, H.A., and Zilversmit, D.B. (1966). Synthesis of phospholipid by foam cells isolated from rabbit atherosclerotic lesions. Circ. Res. 19, 122.
Dzoga, K., Vasselinovitch, D., Fraser, R., and Wissler, R.W. (1971a). The effect of lipoproteins on the growth of aortic smooth muscle cells. Amer. J. Pathol. 62, 32a.
Dzoga, K., Wissler, R.W., and Vasselinovitch, D. (1971b). The effect of normal and hyperlipemic low density lipoprotein fractions on aortic tissue culture cell. Circulation 44, 4.
Eagle, H. (1960). The sustained growth of human and animal cells in a protein-free environment. Proc. Nat. Acad. Sci. U.S.A. 46, 427.
Evans, R. (1972). Macrophages in syngeneic animal tumors. Transplantation 14, 468.
Fedoroff, S., and Doerr, J. (1962). Effect of human blood serum on tissue culture. III. A natural cytotoxic system in human blood serum. J. Nat. Cancer Inst. 29, 331.
Fedoroff, S., Evans, V.J., Hopps, H.E., Sanford, K.K., and Boone, C.W. (1972). Summary of proceedings of a workshop on serum for tissue culture purposes. In Vitro 7, 161.
Fedoroff, S., and Munkacsi, I. (1970). (Unpublished).
Florentin, R.A., Choi, B.H., Lee, K.T., and Thomas, W.A. (1969). Stimulation of DNA synthesis and cell division in vitro by serum from cholesterol-fed swine. J. Cell Biol. 41, 641.
Fogh, J., Holmgren, N., and Ludovici, P.P. (1971). A review of cell culture contaminations. In Vitro 7, 26.
Fritz, K.E., Jarmolych, J., and Daoud, A.S. (1970). Association of DNA synthesis and apparent dedifferentiation of aortic smooth muscle cells in vitro. Exp. Mol. Pathol. 12, 354.
Fritz, K.E., Jarmolych, J., Daoud, A.S., and Peters, T. (1972). Factors influencing DNA synthesis and degradation present in swine serum and aortic tissue. Exp. Mol. Pathol. 16, 54.
Fryer, D.G., Birnbaum, G., and Luttrell, C.N. (1966). Human endothelium in cell culture. J. Atheroscler. Res. 6, 151.
Goldberg, B., and Green, H. (1964). An analysis of collagen secretion by established mouse fibroblast lines. J. Cell Biol. 22, 227.
Haskill, J.S. (1973). (Personal communications).
Iwanaga, Y., Takimura, A., Kitsukawa, H., Tanigawa, J., Aihara, M., Kawashima, T., Mae, A., and Nakashima, T. (1969). The role of endothelial cells in the pathogenesis of atherosclerosis. Acta Pathol. Jap. 19, 161.
Jarmolych, J., Daoud, A.S., Landau, J., Fritz, K.E., and McElvene, E. (1968). Aortic media explants. Cell proliferation and production of mucopolysaccharides, collagen, and elastic tissue. Exp. Mol. Pathol. 9, 171.
Kahn, R.H., Burnel, W., and Rabin, S. (1972). Development of intimal linings for artificial vascular prostheses. In Vitro 7, 267.
Kasten, F.H. (1972). Rat myocardial cells in vitro: mitosis and differentiated properties. In Vitro 8, 128.
Knieriem, H.J., Kao, V.C.Y., and Wissler, R.W. (1968). Demonstration of smooth muscle cells in bovine arteriosclerosis. J. Atheroscler. Res. 8, 125.
Kokubu, T., and Polla„ 0.J. (1961). In vitro cultures of aortic cells of untreated and of cholesterol-fed rabbits. J. Atheroscler. Res. 1, 229.
Kruse, P.F., Jr. (1972). Use of perfusion system for growth of cell and tissue culture. In “Growth, Nutrition, and Metabolism of Cells in Culture.” (G.H. Rothblat and V.J. Cristofalo, eds.), pp. 11–66. Academic Press, New York.
Kruse, P.F., Jr., Keen, L.N., and Whittle, W.L. (1970). Some distinctive characteristics of high density perfusion cultures of diverse cell types. In Vitro 6, 75.
Kruse, P.F., Jr., and Miedema, E. (1965). Production and characterization of multiple-layered populations of animal cells. J. Cell Biol. 27, 273.
Kruse, P.F., Jr., Myhr, B.C., Johnson, J.E., and White, P.B. (1963). Perfusion system for replicate mammalian cell cultures in T-60 flasks. J. Nat. Cancer Inst. 31, 109.
Kruse, P.F., Jr., Whittle, W., and Miedema, E. (1969). Mitotic and nonmitotic multiple-layered perfusion cultures. J. Cell Biol. 42, 113.
Lazzarini-Robertson, A., Jr. (1961). Effects of heparin on the uptake of lipids by isolated human and animal arterial endothelial type cells. Angiology 12, 525.
Leighton, J. (1969). Propagation of cancer: Targets for future chemotherapy. Cancer Res. 29, 2457.
Leighton, J., Estes, L.W., Goldblatt, P.J., and Brada, Z. (1970). The formation of histotypic fibrous collagen in matrix tissue culture by 3T6 mouse fibroblasts: a response to ascorbic acid. In Vitro 6, 153.
Leighton, J., Justh, G., and Esper, M. (1967). Collagen-coated cellulose sponge: three dimensional matrix for tissue culture of Walker Tumor 256. Science 155, 1259.
Maruyama, Y. (1963). The human endothelial cell in tissue culture. Z. Zellforsch Mikrosk. Anat. 60, 69.
May, J.F., and Paule, W.J. (1972). Light and electron microscopic observations of cultured pig aortic smooth muscle cells. J. Cell Biol. 55, 335.
McGarrity, G.J., and Coríell, L.L. (1971). Procedures to reduce contamination of cell cultures. In Vitro 6, 257.
Metzgar, D.P., Jr., and Moskowitz, M. (1960). Separation of growth promoting activity from horse serum dialysis. Proc. Soc. Exp. Biol. Med. 104, 363.
Morton, H.C. (1970). A survey of commercially available tissue culture media. In Vitro 6, 89.
Nordling, S., Andersson, L.C., and Hayry, P. (1972). Thymus-dependent and thymus-independent lymphocyte separation: Relation to exposed sialic acid on cell surface. Science 178, 1001.
Pease, D.C., and Paule, W.J. (1960). Electron microscopy of elastic arteries; the thoracic aortae of the rat. J. Ultrastruct. Res. 3, 469.
Pollak, O.J., and Kasai, T. (1964). Appearance and behavior of aortic cells in vitro. Amer. J. Med. Sci. 248, 105.
Reif, A.E., and Allen, J.M.V. (1964). The AKR thymic antigen and its distribution in leukemias and nervous tissue. J. Exp. Med. 120, 413.
Robertson, A.L., Jr. (1965). Metabolism and ultrastructure of the arterial wall in atherosclerosis. Cleveland Clin. Quart. 32, 99.
Robertson, A.L., Jr. (1967). Transport of plasma lipoproteins and ultrastructure of human arterial intimacytes in culture. (G.H. Rothblat and D. Kritchevsky, eds.). In “Lipid Metabolism in Tissue Culture Cells.” Wistar Institute Press, Philadelphia.
Rodbell, M. (1964). Metabolism of isolated fat cells. I. Effects of hormones of glucose metabolism and lipolysis. J. Biol. Chem. 239, 375.
Rose, G.G. (1967). The circumfusion system for multipurpose culture chambers. I. Introduction to the mechanics, techniques, and basic results of a 12-chamber (in vitro) closed circulatory system. J. Cell Biol. 32, 89.
Rose, G.G. (1957). Special uses of the multipurpose tissue culture chamber. Tex. Rep. Biol. Med. 15, 310.
Rose, G.G., Kumegawa, M., Nikai, H., Bracho, M., and Cattoni, M. (1970). The dualrotary circumfusion system for Mark II culture chambers. I. Design, control, and monitoring of the system and the cultures. Microvasc. Res. 2, 24.
Rose, G.G., Kumegawa, M., Nikai, H.,Cattoni, M., and Hu, F. (1969). The HFH-18 mouse melanoma in roller tube, chamber, and circumfusion system cultures. Cancer Res. 29, 2010.
Rose, G.G., Pomerat, C.M., Shindler, T.O., and Trunnel, J.B. (1958). A cellophane-strip technique for culturing tissue in multipurpose culture chambers. J. Biophys. Biochem. Cytol. 4, 761.
Ross, R. (1972). The arterial smooth muscle cells. (R.W. Wissler, J.C. Geer, and N. Kaufman, eds.). In “The Pathogenesis of Atherosclerosis, 1971.” Williams and Wilkins, Baltimore, Maryland.
Ross, R. (1971). The smooth muscle cell. II. Growth of smooth muscle in culture and formation of elastic fibers. J. Cell Biol. 50, 172.
Schafer, I.A., Silverman, L., Sullivan, J.C., and Robertson, W.V.B. (1967). Ascorbic acid deficiency in cultured human fibroblasts. J. Cell Biol. 34, 83.
Schlesinger, M. (1970). Anti-0 antibodies for detecting thymus-dependent lymphocytes in the immune response of mice to SRBC. Nature 226, 1254.
Stockman, G.D., Heim, L.R., South, M.A., and Trentin, J.J. (1973). Differential effects of cyclophosphamide on the B and T cell compartments of adult mice. J. Immunol. 110, 277.
Stulberg, C. S., Coriell, L.L., Knaizeff, A.J., and Shannon, J.E. The animal cell culture collection. In Vitro 5, 1. (1970).
Sultzer, B.M., and Nilsson, B.S. (1972). PPD-Tuberculin-a Bmitogen Cell. Nature [New Biol.] 240, 198.
Turne, R.K., Bradley, T.R., and Day, A.J. (1969). An investigation by tissue culture techniques on the growth of foam cells isolated from rabbit atherosclerotic lesions. J. Atheroscler. Res. 9, 151.
Virolainen, M., and Defendi, V. (1967). Dependence of macrophage growth in vitro upon interaction with other cell types. (V. Defendi and M. Stoker, eds.). In “Growth Regulating Substances for Animal Cells in Culture.” pp. 67–83. Wistar Press, Philadelphia.
Wada, A., and Pollak, 0.J. (1967). Extracirculatory cholesterol. Atherosclerosis in rabbits. Arch. Pathol. 84, 460.
Waymouth, C. (1970). Osmolality of mammalian blood and of media for culture of mammalian cells. In Vitro 6, 109.
Wissler, R.W. (1968). The arterial medial cell, smooth muscle or multifunctional mesenchyme? J. Atheroscler. Res. 8, 201.
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Fedoroff, S. (1974). Tissue Culture Technology Applicable to Arterial Mesenchyme. In: Wagner, W.D., Clarkson, T.B. (eds) Arterial Mesenchyme and Arteriosclerosis. Advances in Experimental Medicine and Biology, vol 43. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-3243-5_12
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DOI: https://doi.org/10.1007/978-1-4684-3243-5_12
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