Summary
MIP-101 is a poorly differentiated human colon carcinoma cell line established from ascites that produces minimal amounts of carcinoembryonic antigen (CEA), a 180 kDa glycoprotein tumor marker, and nonspecific cross-reacting antigen (NCA), a related protein that has 50 and 90 kDa isoforms, in monolayer culture. However, MIP-101 produces CEA when implanted into the peritoneum of nude mice but not when implanted into subcutaneous tissue. We tested whether three-dimensional (3D) growth was a sufficient stimulus to produce CEA and NCA 50/90 in MIP-101 cells, because cells grow in 3D in vivo rather than in two-dimensions (2D) as occurs in monolayer cultures. To do this, MIP-101 cells were cultured on microcarrier beads in 3D cultures, either in static cultures as nonadherent aggregates or under dynamic conditions in a NASA-designed low shear stress bioreactor. MIP-101 cells proliferated well under all three conditions and increased CEA and NCA production three- to four-fold when grown in 3D cultures compared to MIP-101 cells growing logarithmically in monolayers. These results suggest that 3D growth in vitro simulates tumor function in vivo and that 3D growth by itself may enhance production of molecules that are associated with the metastatic process.
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Benchimol, S.; Fuks, A.; Jothy, S., et al. Carcinoembryonic antigen, a human tumor marker, functions as an intercellular adhesion molecule. Cell 57:327–334; 1989.
Chi, K. F.; Jessup, J. M.; Frazier, M. L. Predominant expression of mRNA coding for nonspecific cross-reacting antigen in colorectal carcinomas. Tumor Biol. 12:298–308; 1991.
Fidler, I. J. Orthotopic implantation of human colon carcinomas into nude mice provides a valuable model for the biology and therapy of metastasis. Cancer Metastasis Rev. 10:229–243; 1991.
Giavazzi, R.; Campbell, D. E.; Jessup, J. M., et al. Metastatic behavior of tumor cells isolated from primary and metastatic human colorectal carcinomas implanted into different sites in nude mice. Cancer Res. 46:1928–1933; 1986.
Goodwin, T. J.; Jessup, J. M.; Wolf, D. A. Morphological differentiation of human colorectal carcinoma in rotating wall vessels. In Vitro Cell. Dev. Biol. 28A:47–60; 1992.
Goodwin, T. J.; Schroeder, W. F.; Wolf, D. A., et al. Rotating-wall vessel coculture of small intestine as a prelude to tissue modeling: aspects of simulated microgravity. Proc. Soc. Exp. Biol. Med. 202:181–92; 1993.
Goslin, R.; Steele, G., Jr.; MacIntyre, J., et al. The use of preoperative plasma CEA levels for the stratification of patients after curative resection of colorectal cancers. Ann. Surg. 192:747–751; 1980.
Graham, C. H.; Kobayashi, H.; Stankiewicz, K. S., et al. Rapid acquisition of multicellular drug resistance after a single exposure of mammary tumor cells to antitumor alkylating agents. J. Natl. Cancer Inst. 86:975–982; 1994.
Hefta, S.; Hefta, L.; Lee, T., et al. Carcinoembryonic antigen is anchored to membranes by covalent attachment to a glycosylphosphatidylinositol moiety: identification of the ethanolamine linkage site. Proc. Natl. Acad. Sci. USA 85:4648–4652; 1988.
Ishii, S.; Ford, R.; Thomas, P., et al. CD44 participates in the adhesion of human colorectal carcinoma cells to laminin and type IV collagen. Surg. Oncol. 2:255–264; 1993.
Jessup, J. M.; Giavazzi, R.; Campbell, D., et al. Metastatic potential of human colorectal carcinomas implanted into nude mice: prediction of clinical outcome in patients operated upon for cure. Cancer Res. 49:6906–6910; 1989.
Jessup, J. M.; Goodwin, T. J.; Spaulding, G. Prospects for use of microgravity-based bioreactors to study three-dimensional host-tumor interactions in human neoplasia. J. Cell. Biochem. 51:290–300; 1993.
Jessup, J. M.; Kim, J. C.; Thomas, P., et al. Adhesion to carcinoembryonic antigen by human colorectal carcinoma cells involves at least two epitopes. Int. J. Cancer 55:262–268; 1993.
Jessup, J. M.; Petrick, A. T.; Toth, C. A., et al. Carcinoembryonic antigen: enhancement of liver colonisation through retention of human colorectal carcinoma cells. Br. J. Cancer 67:464–470; 1993.
Levin, L. V.; Griffin, T. W. Specific adhesion of carcinoembryonic antigen-bearing colorectal cancer cells to immobilized carcinoembryonic antigen. Cancer Lett., 60:143–152; 1991.
Morikawa, K.; Walker, S. M.; Nakajima, M., et al. Influence of organ environment on the growth, selection, and metastasis of human colon carcinoma cells in nude mice. Cancer Res. 48:6863–6871; 1988.
Niles, R. M.; Wilhelm, S. A.; Steele, G. D., et al. Isolation and characterization of an undifferentiated human colon cancer cell line (MIP-101). Cancer Invest. 5:545–552; 1987.
Niles, R. M.; Wilhelm, S. A.; Thomas, P., et al. The effect of sodium butyrate and retinoic acid on growth and CEA production in a series of human colorectal tumor cell lines representing different states of differentiation. Cancer Invest. 6:39–45; 1988.
Oikawa, S; Imajo, S.; Noguchi, T., et al. The carcinoembryonic antigen (CEA) contains multiple immunoglobulin-like domains. Biochem. Biophys. Res. Commun. 144:634–642; 1987.
Oikawa, S.; Inezuka, C.; Kwoki, M., et al. Cell adhesion activity of non-specific cross-reacting antigen (NCA) and carcinoembryonic antigen (CEA) expressed on CHO cell surface, homophilic and heterophilic adhesion. Biochem. Biophys. Res. Comm. 164:39–48; 1989.
Paget, S. The distribution of secondary growths in cancer of the breast. Lancet 1:571–573; 1889.
Rak, J. W.; Kerbel, R. S. Growth advantage (“clonal dominance”) of metastatically competent tumor cell variants expressed under selective two- or three-dimensional tissue culture conditions. In Vitro Cell. Dev. Biol. 29A:742–748; 1993.
Sack, T.; Gum, J.; Low, M., et al. Release of carcinoembryonic antigen from human colon cancer cells by phosphoinositol-specific phospholipase C. J. Clin. Invest. 82:586–593; 1988.
Takahashi, H.; Okai, Y.; Paxton, R. J., et al. Differential regulation of carcinoembryonic antigen and biliary glycoprotein by gamma-interferon. Cancer Res. 53:1612–9; 1993.
Tibbetts, L. M.; Doremus, C. M.; Tzanakakis, G. N., et al. Liver metastases with 10 human colon carcinoma cell lines in nude mice and association with carcinoembryonic antigen production. Cancer 71:315–321; 1993.
Wagner, H. E.; Thomas, P.; Wolf, B. C., et al. Characterization of the tumorigenic and metastatic potential of a poorly differentiated human colon cancer cell line. Invasion & Metastasis 10:253–266; 1990.
Wanebo, H. J.; Rao, B.; Pinsky, C. M., et al. Preoperative carcinoembryonic antigen level as a prognostic indicator in colorectal cancer. N. Engl. J. Med. 299:448–451; 1978.
Wilmanns, C.; Fan, D.; O’Brian, C. A., et al. Orthotopic and ectopic organ environments differentially influence the sensitivity of murine colon carcinoma cells to doxorubicin and 5-fluorouracil. Int. J. Cancer 52:98–104; 1992.
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Jessup, J.M., Brown, D., Fitzgerald, W. et al. Induction of carcinoembryonic antigen expression in a three-dimensional culture system. In Vitro Cell.Dev.Biol.-Animal 33, 352–357 (1997). https://doi.org/10.1007/s11626-997-0005-6
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DOI: https://doi.org/10.1007/s11626-997-0005-6