Abstract
An immunoconjugate between doxorubicin and anti-(carcinoembryonic antigen) (CEA) was prepared by using aminodextran (M r=40 000) as the intermediate carrier, and the carbohydrate moiety of the antibody as the linking site. The resulting immunoconjugate was subjected to an in vitro evaluation for the internalization on the target cells (LoVo), and compared to that of unconjugated antibody, as well as the cellular uptake of unconjugated doxorubicin. The internalization was evaluated microscopically by following the translocation of the red fluorescence of doxorubicin and the green fluorescence of the fluorescein-isothiocyanate-labeled goat anti-(mouse Ig) antibody, which visualizes the location of the primary mouse antibody. Anti-CEA monoclonal antibody (NP-4) was found to internalize into LoVo cells. The immunoconjugate made with this antibody was similarly internalized, and the doxorubicin was found to distribute with the primary antibody. The cell surface and cytoplasm were the major compartments of their distribution. These results indicate that the drug molecules were indeed delivered into the cells by the antibody as an intact conjugate. Unconjugated doxorubicin, on the contrary, was quickly absorbed by the cells and concentrated in the nucleus within 30 min, and never showed a distribution in the cytoplasm or cell membrane as in the nucleus by this procedure. The intermediate drug conjugate, doxorubicin-dextran, did not show internalization. The internalization of NP-4 antibody (or the doxorubicin conjugate) was also confirmed by studying the intracellular catabolism of the cell-bound antibody (or conjugate). The release of the degraded antibody by the cells, as differentiated by trichloroacetic acid precipitation techniques, was considered an indication of internalization. Lysosomes were involved in the degradation, since the process was markedly inhibited in the presence of the lysosomal enzyme inhibitor, ammonium chloride.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Braslawsky GR, Kadow K, Knipe J, McGoff K, Edson M, Kaneko T, Greenfield RS (1991) Adriamycin(hydrazone)-antibody conjugates require internalization and intracellular acid hydrolysis for antitumor activity. Cancer Immunol Immunother 33: 367
Carriere D, Casellas P, Richer G, Gros P, Jansen FK (1984) Kinetics of cytotoxicity induced by immunotoxins. Enhancement by lysosomotropic amines and carboxylic ionophores. J Biol Chem 259: 9359
Dillman RO (1984) Monoclonal antibodies in the treatment of cancer. CRC Crit Rev Oncol Hemotol 1: 357
Durrant LG, Garnett MC, Gallego J, Armitage MC, Ballantyne KC, Marksman RA, Hardcastle JD, Baldwin RW (1987) Sensitivity of newly established colorectal cell lines to cytotoxic drugs and monoclonal antibody drug conjugates. Br J Cancer 56: 722
FitzGerald D, Pastan I (1989) Targeted toxin therapy for the treatment of cancer. J Natl Cancer Inst 81: 1455
Ford CHJ, Casson AG (1986) Antibody-mediated targeting in the treatment and diagnosis of cancer: an overview. Cancer Chemother Pharmacol 17: 197
Godal A, Fodstad O, Pihl A (1987) Studies on the mechanism of action of abrin-9.2.27 immunotoxin in human melanoma cell lines. Cancer Res 47: 6243
Goldenberg DM (1989) Future role of radiolabeled monoclonal antibodies in oncological diagnosis and therapy. Semin Nucl Med 19: 332
Goldenberg DM, Witte S (1967) Chemotherapy of two morphologically similar human tumors growing in the cheek pouch of the golden hamster: H. Ad. No. 1 and GW-39. Eur J Cancer 3: 95
Gordon PB, Seglen PO (1989) Exogenous control of intracellular protein catabolism. In: Beynon RJ, JS Bond (eds) Proteolytic enzymes: a practical approach. IRL Press/Oxford University Press, Oxford, pp 193–210
Greenfield RS, Kaneko T, Daues A, Edson MA, FitzGerald KA, Olech LJ, Grattan JA, Spitalny GL, Braslawsky GR (1990) Evaluation in vitro of Adriamycin immunoconjugates synthesized using an acid-sensitive hydrazone linker. Cancer Res 50: 6600
Hindenburg AA, Gervasoni JE Jr, Krishna S, Stewart VJ, Rosado M, Lutzky J, Bhalla K, Baker MA, Taub RN (1989) Intracellular distribution and pharmacokinetics of Daunomycin in anthracycline-sensitive and-resistant HL-60 cells. Cancer Res 49: 4607
Iwahashi T, Tone Y, Usui J, Watanabe H, Sugawara I, Mori S, Okazaki H (1989) Selective killing of carcinoembryonic-antigen(CEA)-producing cells in vitro by the immunoconjugate cytorhodin-S and CEA-reactive cytorhodin-S antibody CA208. Cancer Immunol Immunother 30: 239
Johnson IS, Spearman ME, Todd GC, Zimmerman JL, Bumol TF (1987) Monoclonal antibody drug conjugates for site-directed cancer chemotherapy: preclinical pharmacological and toxicology studies. Cancer Treat Rev 14: 193
Krauer KG, McKenzie IF, Pietersz GA (1992) Anti-tumor effect of 2′-deoxy-5-fluorouridine conjugates against a murine thymoma and colon carcinoma xenografts. Cancer Res 52: 132
Kyriakos RJ, Shih LB, Ong LG, Goldenberg DM, Mattes JM (1992) The fate of antibodies bound to the surface of tumor cells in vitro. Cancer Res 52: 835
Laguzza BC, Nichols CL, Briggs SL, Cullinan GJ, Johnson DA, Starling JJ, Baker AL, Bumol TF, Corvalan RF (1989) New antitumor monoclonal-vinca conjugates LY203 725 and related compounds: design, preparation, and representative in vivo activity. J Med Chem 32: 548
Levin LV, Griffin TW, Childs LR, Davis S, Haagensen DE Jr (1987) Comparison of multiple anti-CEA immunotoxins active against human adenocarcinoma cells. Cancer Immunol Immunother 24: 202
van Oosterhout YVJM, Preijers FWMB, Wessels HMC, Witte T de (1992) Cytotoxicity of CD3-ricin A chain immunotoxins in relation to cellular uptake and degradation kinetics. Cancer Res 52: 5921
Pastan I, Willingham MC, FirzGerald JP (1986) Immunotoxins Cell 47: 641
Pirker R, FitzGerald DJP, Hamilton TC, Ozols RF, Laird W, Frankel AE, Willingham MC, Pastan J (1985) Characterization of immunotoxins active against ovarian cancer cell lines. J Clin Invest 76: 1261
Press OV, Farr AG, Borroz KI, Anderson SK, Martin PL (1989) Endocytosis and degradation of monoclonal antibodies targeting human B-Cell malignancies. Cancer Res 49: 4906
Sharkey RM, Ballance K, Varga D, Siegel JA, Pawlyk D, Alger EA, Hall TC, Horowitz J, Hansen H, Goldenberg DM (1988) Pharmacological and radiodosimetric analysis of patients given radioiodinated anti-carcinoembryonic antigen (CEA) monoclonal antibody (MAb) for tumor therapy. Proc Am Soc Clin Oncol 7: 100
Sharkey RM, Goldenberg DM, Goldenberg H, Lee RE, et al (1990) Murine monoclonal antibodies against carcinoembryonic antigen: immunological pharmacokinetic and targeting properties in humans. Cancer Res 50: 2823
Shih LB, Goldenberg DM, Xuan H, Lu H, Sharkey RM, Hall TC (1991) Anthracycline immunoconjugates prepared by a site-specific linkage via an amino-dextran intermediate carrier. Cancer Res 51: 4192
Vitetta ES, Uhr JW (1985) Immunotoxins: redirecting nature's poisons. Cell 41: 653
Wargalla UC, Reisfeld RA (1989) Rate of internalization of an immunotoxin correlates with cytotoxic activity against human tumor cells. Proc Natl Acad Sci USA 86: 5146
Yang HM, Reisfeld RA (1988) Doxorubicin conjugated with a monoclonal antibody directed to a human melanoma-associated proteoglycan suppresses the growth of established tumor xenografts in nude mice. Proc Natl Acad Sci USA 85: 1189
Author information
Authors and Affiliations
Additional information
Supported in part by USPHS grant CA 39841 from the NIH, grant EDT-16 from the American Cancer Society, and grant 89-240360-6 from the New Jersey Commission on Science and Technology.
Rights and permissions
About this article
Cite this article
Shih, L.B., Goldenberg, D.M., Xuan, H. et al. Internalization of an intact doxorubicin immunoconjugate. Cancer Immunol Immunother 38, 92–98 (1994). https://doi.org/10.1007/BF01526203
Issue Date:
DOI: https://doi.org/10.1007/BF01526203