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Conclusions
Contact inhibition of movement is here defined simply as the stopping of the continued locomotion of a cell in the direction which has produced a collision with another cell; so that one cell does not use another as a substratum. Amongst fibroblasts and epithelial cells this inhibition seems to be brought about by a mechanism which it is suggested consists essentially of a spasm of contraction in the region of the contact, set off by some signal from the cell contacted. Many other kinds of cells show the general phenomenon of contact inhibition; but there is no certainty that they have the same contractile mechanism.
The survey of the literature which this review has entailed suggests that it might be useful to end with four somewhat negative points: (1) Contact inhibition as originally defined is not concerned with mitosis. It may of course become so. (2) Contact inhibition of movement is difficult to analyse reliably without quantitative estimations and deliberate experiments. Anecdotes are not enough. (3) Malignant cells are not properly described as being devoid of contact inhibition. It is suggested that they are defective as compared with their cells of origin. (4) From the point of view invasion interest. It is the heterologous inhibition of tumour cells by normal cells that is relevant.
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References
Abercrombie, M., and J. E. M. Heaysman. 1954. Social behaviour of cells in tissue culture. II. “Monolayering” of fibroblasts. Exp. Cell Res. 6: 293–306.
Weiss, P. 1950. Perspectives in the field of morphogenesis. Quart. Rev. Biol. 25: 177–198.
Abercrombie, M., and E. J. Ambrose. 1958. Interference microscope studies of cell contacts in tissue culture. Exp. Cell Res. 15: 332–345.
Loeb, L. 1921 Moeboid movement, tissue formation and consistency of protoplasm. Amer. J. Physiol. 56: 140–167.
Abercombie, M., and E. J. Ambrose. 1962. The surface properties of cancer cells: a review Cancer Res. 22: 525–548.
Abercrombie, M., and C. A. Middleton. 1968. Epithelial-mesenchymal interactions affecting locomotion of cells in culture. In:Epithelial-Mesenchymal Interactions. Edited by R. Fleischmajer and R. E. Bilingham, p. 56. Williams and Wilkins. Baltimore.
Stoker, M. G. P., and H. Rubin. 1967. Density dependent inhibition of cell growth in culture. Nature. London 215: 171–172.
Abercrombie, M. 1967. Contact inhibition: the phenomenon and its biological implications. Nat. Cancer Inst. Monogr. 26: 249–277.
Ingram, V. M. 1969. A side view of moving fibroblasts. Nature, London 222: 641–644.
Boyde, A., F. Grainger, and D. W. James 1969. Scanning electron microscopic observations of chick embryo fibroblastsin vitro, with particular reference to the movement of cells under others. Z. Zellforsch. 94: 46–55.
Weiss, P. 1958 Cell contact. Int. Rev. Cytol., 7: 391–423.
Abercrombie, H. 1961. The bases of the locomotory behaviour of fibroblasts. Exp. Cell Res. Suppl. 8: 188–198.
Devis, R., and D. W. James 1962. Electron microscopic appearance of close relationships between adult guinea pig fibroblasts in tissue culture. Nature, London 194: 695–696.
Potter, D. D., E. J. Furshpan, and E. S. Lennox. 1966. Connections between cells of the developing squid as revealed by electrophysiological methods. Proc. Nat. Acad. Sci. 55: 328–336.
Abercrombie, M., and J. E. M. Heaysman. 1953. Social behaviour of cells in tissue culture. I. Speed of movement of chick heart fibroblasts in relation to their mutual contacts. Exp. Cell Res. 5: 111–131.
Abercrombie, M., J. E. M. Heaysman, and H. M. Karthauser. 1957. Social behaviour of cells in tissue culture. III. Mutual influence of sarcoma cells and fibroblasts. Exp. Cell Res. 13: 276–291.
Abercrombie, M., D. M. Lamont, and E. M. Stephenson. 1968. The monolayering in tissue culture of fibroblasts from different sources. Proc. Roy. Soc. B 170: 349–360.
Abercrombie, M. 1962. Contact-dependent behaviour of normal cells and the possible significance of surface changes in virus-induced transformations. Cold Spring Harbor Symp. Quant. Biol. 27: 427–431.
Carter, S. B. 1965. Principles of cell motility: the direction of cell movement and cancer invasion. Nature, London 208: 1183–1187.
Curtis, A. S. G. 1961. Control of some cell-contact reactions in tissue culture. J. Nat. Cancer Inst. 26: 253–268.
Curtis, A. S. G. 1967.The Cell Surface: Its Molecular Role in Morphogenesis. Logos Academic Press, London. pp. X +405.
Curtis, A. S. G. 1960. Cell contacts: some physical considerations. Amer. Nat. 94: 37–56.
Carter, S. B. 1967. Haptotaxis and the mechanism of cell motility. Nature, London 213: 256–260.
Steinberg, M. S. 1965. Reconstruction of tissues by dissociated cells. Science 141: 401–408.
Abererombie, M. 1964. Cell contacts in morphogenesis. Arch. Biol. (Liège) 75: 351–367.
Rubin, H. 1966. Fact and theory about the cell surface in carcinogenesis. InMajor Problems in Developmental Biology. Ed. M. Locke, p. 315, 25th Symposium, Society for Developmental Biology, Academic Press, New York.
Curtis, A. S. G. and M. Vardé. 1964. Control of cell behaviour: topological factors. J. Nat. Cancer Inst., 33: 15–26.
Gustafson, T. and L. Wolpert. 1967. Cellular movement and contact in sea urchin morphogenesis. Biol. Rev. 42: 442–498.
Wolpert, L. and D. Gingell. 1968. Cell surface membrane and amoeboid movement. Symp. Soc. Exp. Biol. 22: 169–198.
Ambrose, E. J. 1961. The movements of fibrocytes. Exp. Cell Res. Suppl. 8: 54–73.
Loewenstein, W. R. and R. D. Penn. 1967. Intercellular communication and tissue growth. II. Tissue regeneration. J. Cell Biol. 33: 235–242.
Hay, E. D. 1968. Organization of fine structure of epithelium and mesenchyme in the developing chick embryo. In:Epithelial-Mesenchymal Interaction. Ed. R. Fleischmajer and R. E. Billingham, p. 31. Williams and Wilkins, Baltimore.
Lowenstein, W. R. 1968. Communication through cell junctions. Implications in growth control and differentiation. Devel. Biol. Suppl. 2: 151–183.
Abercrombie, M., and J. E. M. Heaysman. 1966. The directional movement of fibroblasts emigrating from cultured explants. Ann. Med. Exp. Fenn. 44: 161–165.
Abercrombie, M., and G. Gitlin. 1965. The locomotory behaviour of small groups of fibroblasts. Proc. Roy. Soc. B. 162: 289–302.
Fischer, A. 1930. Regeneration. Versuche an Gewebskulturen in vitro. Virchows Arch. 279: 94–136.
Todaro, G. J., G. K. Lazar, and H. Green. 1965. The initiation of cell division in a contact-inhibited mammalian cell line. J. Cell. Comp. Physiol. 66: 325–333.
Castor, L. N. 1968. Contact regulation of cell division in an epithelial-like cell line. J. Cell Physiol. 72: 161–172.
Vasiliev, J. M., I. M. Gelfand, L. V. Domina and R. I. Rappoport. 1969. Wound healing processes in cell cultures. Exp. Cell Res. 54: 83–93.
Abercrombie, M., M. L., Johnson, and G. A. Thomas. 1949. The influence of nerve fibres on Schwann cell migration investigated in tissue culture. Proc. Roy. Soc. B 136: 448–460.
Mayer, E. 1933. Frombildung und Wachstum von gezüchteten Zellverbänder (“Reinkulturen”). Roux Arch. Ent. Mech. Organ. 130: 382–494.
James, D. W., and J. F. Taylor. 1969. The stress developed by sheets of chick fibroblasts in vitro. Exp. Cell Res. 54: 107–110.
Abercrombie, M., M.H. Flint, and D. W. James. 1956. Wound contraction in relation to collagen formation in scrobutic guineapigs. J. Embryol. Exp. Morph. 4: 167–175.
Saxén, L., and J. Wartiovaara. 1966. Cell contact and cell adhesion during tissue organization. Int. J. Cancer 1: 271–290.
Trinkaus, J. P., and J. P. Lentz. 1964. Direct observation of type-specific segregation in mixed cell aggregates. Devel. Biol. 9: 115–136.
Elsdale, T. R. 1968. Parallel orientation of fibroblasts in vitro. Exp. Cell Res. 51: 439–450.
Macpherson, I., and M. Stoker. 1962. Polyoma transformation of hamster cell clones-an investigation of genetic factors affecting cell competence. Virology 16: 147–151.
Macieira-Coelho, A. 1967. Dissociation between inhibition of movement and inhibition of division in RSV transformed human fibroblasts. Exp. Cell Res. 47: 193–200.
Sanford, K. K., B. E. Barker, M. W. Wood, R. Parshad, and L. W. Law. 1967. Search for “indicators” of neoplastic conversionin vitro. J. Nat. Cancer Inst. 39: 705–733.
Defendi, V. 1966. Transformationin vitro of mammalian cells by polyoma and simian40 viruses. Prog. Exp. Tumor Res. 8: 125–188.
Borek, C., and L. Sachs. 1966In vitro cell transformation by x-irradiation. Nature, London 210: 276–278.
Berwald, Y. and L. Sachs. 1963.In vitro cell transformation with chemical carcinogens. Nature, London 200: 1182–1184.
Heidelberger, C., and P. T. Iype. 1967. Malignant transformation in vitro by carcinogenic hydrocarbons. Science 155: 214–217.
Kuroki, T. and H. Sato. 1968. Transformation and neoplastic developmentin vitro of hamster embryonic cells by 4-nitroquinoline-1-oxide and its derivatives. J. Nat. Cancer Inst. 41: 53–71.
Enders, J. F., and G. T. Diamandopoulos. 1969. A study of variation and progression in oncogenicity in an SV40-transformed hamster heart cell line and its clones. Proc. Roy. Soc. B 171: 431–443.
Defendi, V., and J. M. Lehman. 1966. Transformation of hamster embryo cellsin vitro by polyoma virus: morphological, karological, immunological and transplantation characteristics. J. Cell. Comp. Physiol. 66: 351–409.
Aaronson, S. A., and G. J. Todaro. 1968. Basis for the acquisition of malignant potential by mouse cells cultivated in vitro. Science 162: 1024–1026.
Defendi, V., J. Lehman, and P. Kraemer. 1963. “Morphologically normal” hamster cells with malignant properties. Virology 19: 592–598.
Carrel, A., and A. H. Ebeling. 1928. The fundamental properties of the fibroblast and the macrophage. III. The malignant fibroblasts of sarcoma 10 of the Crocker Foundation. J. Exp. Med. 48: 105–123.
Jacoby, F. 1940. Architecture of colonies of a pure strain of fibroblastic sarcomatous cells derived from a dibenzanthracene mouse tumour. Nature, London 146: 301–302.
Hellström, I., K. E. Hellström, and H. O. Sjögren. 1962. Further studies on superinfection of polyoma-induced mouse tumors with polyoma virus in vitro. Virology 16: 282–300.
Canti, R. G. 1928. Cinematograph demonstration of living cells growingin vitro. Arch. exp. Zellforsch. 6: 86–97.
Abercombie, M. 1961. Behaviour of normal and malignant connective tissue cellsin vitro. Canad. Cancer Conf. 4: 101–117.
Vaughan, R. B. and J. P. Trinkaus. 1966. Movements of epithelial cell sheetsin vitro. J. Cell Sci. 1: 407–413.
Wilbanks, G. D., and R. M. Richart. 1966. Thein vitro interaction of intra-epithelial neoplasia, normal epithelium, and fibroblasts from the adult human unterine cervix. Cancer Res. 26: 1641–1647.
Trinkaus, J. P., and T. L. Lentz. 1967. Surface specializations ofFundulus cells and their relation to cell movements during gastrulation. J. Cell Biol. 32: 139–153.
Wilbur, K. M., and R. Chambers. 1941. Cell movements in the healing of microwounds in vitro. J. Exp. Zool. 91: 287–302.
Bereiter-Hahn, J.. 1967. Dissoziation und Reaggregation von Epidermiszellen der Larven vonXenopus laevis (Daudin) in vitro. Zeitrafferlaufbild-und Teilbildanalyse. Z. Zellforsch. 79: 118–156.
Holmes, S. J.. 1913. Behavior of ectodermic epithelium of tadpoles when cultivated in plasma. Univ. California Publ. Zool. 11: 155–172.
Chambers, R. and R. J. Ludford. 1932. Microdissection studies on malignant and nonmalignant tissue cells. Arch. Exp. Zellforsch. 12: 555–569.
Coman, D. R. 1944. Decreased mutual adhesiveness, a property of cells from squamous cell carcinomas. Cancer Res. 4: 625–629.
McCutcheon, M., D. R. Coman, and F. B. Moore. 1948. Studies on invasiveness of cancer. Adhesiveness of malignant cells in various human adenocarcinomas. Cancer 1: 460–467.
Borland, R., and A. J. Webber. 1966. An electron microscopic study of squamous cell carcinoma in merino sheep associated with keratin-filled cysts of the skin. Cancer Res. 26: 172–182.
Shingleton, H. M., R. M. Richart, J. Wiener, and D. Spiro. 1968. Human cervical intraepithelial neoplasia: fine structure of dysplasia and carcinomain situ. Cancer Res. 28: 695–706.
Richart, R. M. 1964. The growth characteristicsin vitro of normal epithelium, dysplasia, and carcinoma-in-situ of the uterine cervix. Cancer Res. 24: 662–669.
Coman, D. R. 1942. Human neoplasms in tissue culture. Cancer Res. 2: 618–625.
Hanes, F. M., and R. A. Lambert. 1912. Amöboide Bewegungen von Krebszellen als ein Faktor des invasiven und metastatischen Wachstums maligner Tumoren. Virchows Arch. Path. Anat. 209: 12–21.
Auersperg, N., and A. Worth. 1966. Growth patternsin vitro of invasive squamous carcinomas of the cervix. A correlation of cultural, histologic, cytogenetic and clinical features. Int. J. Cancer 1: 219–238.
Trevan, D. J., and D. C. Roberts. 1960. Sheet formation by cells of an ascites tumourin vitro. Brit. J. Cancer 14: 724–729.
Santesson, L. 1935. Characteristics of epithelial mouse tumour cellsin vitro and tumour strainsin vivo. Acta Path. Microbiol. Scandinav. (Suppl.) 24: 1–237.
Easty, G. C., and E. H. Mercer. 1960. An electron microscope study of the surface of normal and malignant cells in culture. Cancer Res. 20: 1608–1613.
Oldfield, F. E. 1963. Orientation behavior of chick leucocytes in tissue culture and their interactions with fibroblasts. Exp. Cell Res. 30: 125–138.
Chang, Y. T. 1964. Long term cultivation of mouse peritoneal macrophages. J. Nat. Cancer Inst. 32: 19–35.
Jacoby, F. 1965. Macrophages. In: Cells and Tissues in Culture, vol. 2, Ed. E. N. Willmer, p. 1. Academic Press, New York, 1965.
Chiakulas, J. J. 1952. The role of tissue specificity in the healing of epithelial wounds. J. Exp. Zool. 121: 383–417.
Ludford, R. J., and H. Barlow. 1944. The influence of malignant cells upon the growth of fibroblasts. Cancer Res. 4: 694–703.
Rubin, H. 1966. The inhibition of chick embryo cell growth by medium obtained from cultures of Rous sarcoma cells. Exp. Cell Res. 41: 149–161.
Barski, G., and J. Belehradek. 1965. Etude microcinématographique du mécanisme d'invasion cancereuse en cultures de tissu normal associé aux cellules malignes. Exp. Cell Res. 37: 464–480.
Stoker, M. 1964. Regulation of growth and orientation in hamster cells transformed by polyoma virus. Virology 24: 165–174.
Weiss, L. 1967.The Cell Periphery, Metastasis and Other Contact Phenomena. North-Holland Publishing Co., Amsterdam.
Fischer, A., H. Laser, and H. Meyer. 1929. Wechselbeziehungen zwischen normalen und bösartigen Geweben. Z. Krebsforsch. 29: 270–301.
Earle, W. R. 1937. A further study of the Walker rat mammary carcinoma Nr. 256 in vitro. Arch. Exp. Zellforsch. 20: 140–155.
Chlopin, N. 1932. Über das Wachstum und die Organisationsfähigkeit einiger Epithelgewebe ausserhalb des Organismus. Z. Krebsforsch. 37: 256–276.
Leighton, J., R. L. Kalla, and M. Belkin. 1959. Pathogenesis of tumor invasion. I. Interaction between normal tissues and transformed cells in tissue culture. Cancer Res. 19: 23–27.
Castor, L. N. 1968. Contact regulation of cell division in an epithelial-like cell line. J. Cell Physiol. 72: 161–172.
Swann, M. M. 1958. The control of cell division: a review. II. Special mechanisms. Cancer Res. 18: 1118–1160.
Macieira-Coelho, A. 1967. Relationship between DNA synthesis and cell density in normal and virus-transformed cells. Int. J. Cancer. 2: 297–303.
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M. Abercrombie
Present address: The Strangeways Research Laboratory, Cambridge, England
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Department of Zoology, University College, W.C. 1, London, England
M. Abercrombie
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Abercrombie, M. Contact inhibition in tissue culture.In Vitro6, 128–142 (1970). https://doi.org/10.1007/BF02616114
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