Successful therapy of human cancer with monoclonal antibodies (moAbs) has not yet been achieved, but remains a possibility. We have developed a method of moAb modification that should greatly enhance their specific toxicity when used for regional immunotherapy. Examples of appropriate clinical situations are intraperitoneal injection for ovarian carcinoma and intraspinal injection for tumors confined to cerebrospinal fluid. Such regional therapy may provide the added specificity required to allow tumor eradication to be obtained. By conjugating galactose directly to moAbs, very rapid blood clearance is produced via the hepatic galactose-specific receptor. Within minutes, essentially all of the moAb is taken up by the liver, and subsequently is rapidly degraded within hours. By this mechanism, the moAB is inactivated immediately upon entering the systemic circulation. Antigen binding activity is retained in such galactose conjugates, at least with the three moAbs tested. Also, complement-mediated cytotoxicity is unaffected. In this proposal, we intend to examine other effector functions of such conjugated moAbs; namely antibody- dependent cell-mediated cytotoxicity mediated by mouse lymphocytes, mouse macrophages or human lymphocytes, specific localization to human tumor xenografts in nude mice, and therapeutic effects on human tumor xenografts. In vivo experiments will utilize 4 human tumor cell lines which grow intraperitoneally in nude mice, as a model for ovarian carcinoma. Another, unique model that will be used is a transfected mouse cell line, 2.2, which expresses a single human membrane antigen, MA149, and which grows i.p. in syngeneic normal mice. If certain effector functions are partially lost, the conjugation procedure will be modified such that they are preserved. If necessary, a carrier molecule such as albumin or amino-dextran will be galactose-conjugated, then linked to moAbs at a 1:1 molar ratio. MoAbs of different classes and subclasses will be tested, including IgM, IgG2a, and IgG2b. Rapid blood clearance of moABs, after regional injection, has 2 major benefits. First, it will greatly reduce the reaction of moAbs with antigen- positive normal cells outside the region injected, which allows clinical use of moAbs that are not tumor-specific, but have other desirable characteristics, such as homogenous expression and high antigen density. Second, for moAbs conjugated to toxic radioisotopes, it will greatly reduce exposure of bone marrow and other normal tissues due to circulating radioactivity.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA048779-03
Application #
3192721
Study Section
Experimental Immunology Study Section (EI)
Project Start
1988-08-01
Project End
1991-07-31
Budget Start
1990-08-01
Budget End
1991-07-31
Support Year
3
Fiscal Year
1990
Total Cost
Indirect Cost
Name
Center for Molecular Medicine/Immunology
Department
Type
DUNS #
City
Belleville
State
NJ
Country
United States
Zip Code
07950
Mattes, M J (1995) Limitations of the Lindmo method in determining antibody immunoreactivity. Int J Cancer 61:286-8
Harapanhalli, R S; Schafranek, W; Ong, G L et al. (1995) Lysine-directed radioiodination of proteins with a cyanuric chloride derivative of aminofluorescein. Anal Biochem 231:50-6
Shih, L B; Thorpe, S R; Griffiths, G L et al. (1994) The processing and fate of antibodies and their radiolabels bound to the surface of tumor cells in vitro: a comparison of nine radiolabels. J Nucl Med 35:899-908
Ong, G L; Marria, V; Mattes, M J (1994) The fate of antibodies and their radiolabels bound to tumor cells in vitro: the effect of cross-linking at the cell surface and of anti-idiotype antibodies. Cancer Immunol Immunother 39:325-31
Mattes, M J; Griffiths, G L; Diril, H et al. (1994) Processing of antibody-radioisotope conjugates after binding to the surface of tumor cells. Cancer 73:787-93
Kyriakos, R J; Shih, L B; Ong, G L et al. (1992) The fate of antibodies bound to the surface of tumor cells in vitro. Cancer Res 52:835-42
Ong, G L; Ettenson, D; Sharkey, R M et al. (1991) Galactose-conjugated antibodies in cancer therapy: properties and principles of action. Cancer Res 51:1619-26
Sharkey, R M; Natale, A; Goldenberg, D M et al. (1991) Rapid blood clearance of immunoglobulin G2a and immunoglobulin G2b in nude mice. Cancer Res 51:3102-7
Ong, G L; Mattes, M J (1989) Penetration and binding of antibodies in experimental human solid tumors grown in mice. Cancer Res 49:4264-73