Murine B-cell hybridoma cells producing an immunoglobulin G1 (K13), specific for human immunoglobulin kappa chains were inoculated intraperitoneally in mice. After intraperitoneal injection of 10(6) K13 hybridoma cells, superficial intraperitoneal implants and ascites developed, resulting in death after 10 +/- 3 days (mean +/- SD). An immunoradiometric assay was developed to measure K13 in murine blood, ascites and culture supernatant. The assay utilized polymer beads coated with human immunoglobulin G. The amount K13 bound to the particles was measured with a 125I-labelled monoclonal rat antibody (LO-MG1-13) specific for mouse IgG1. The assay could be used over a wide working range (2-500 micrograms/l). Kinetic studies suggested that about 10(5) secreting cells were required for detection of K13 in blood. After injection of 10(6) cells, K13 was measurable in blood 1 day later in all animals. Nine of 33 mice injected with 10(5) or less cells survived, and initially showed rising K13 blood levels followed by decreasing blood levels. In conclusion, a close relationship was established between i.p. growth of the hybridoma K13 cell line and the MAb blood levels. The basic concepts of this assay can readily be adopted for other clones with the limitation that pure antigen is needed for solid phase extraction of the MAb from mouse blood.
The field of immunotargeting, and the challenges met when this technique is applied in experimental animals or in patients, are reviewed. Even with highly specific monoclonal antibodies, non-specific uptake in normal tissues and high background level of unbound radioactivity in blood and extravascular body fluids remain significant problems. Further experimental work in animal model systems is needed to bring this technique from the state of being an experimental method, with limited clinical application, to a routine diagnostic or therapeutic method. Different animal models are available, and their potential for elucidation of the various methodological problems in radio-immunotargeting are discussed in the present paper. In our laboratory. two intraperitoneal models were devised. having relevance for gynecologic and other forms of intraperitoneal malignancies. These models were elaborated with special emphasis on the possibility for exact measurement of important parameters in immunotargeting reactions. In the first model, hybridoma cells are inoculated intraperitoneally to mimic intraperitoneal carcinomatosis, and the monoclonal antibody produced by the hybridoma is used as serum tumor marker. In the second model the tumor cells are contained within intraperitoneally implanted micropore chambers, resembling a localized tumor. An artificial tumor like this allows control with the antigen load in the target, and measurement of the concentration of the injected antibody in the fluid within the target.
Hamilton
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