Malignant glioma cells often have more epidermal growth factor (EGF) receptors than normal cells and targeting of toxic substances to the receptor might therefore be an attractive therapeutical approach. Radiation effects were analysed on human glioma cells growing as monolayers after exposure to 131I-EGF. Unspecific effects were analysed with 131I-BSA or after presaturation with nonradioactive EGF. The radiation effects were compared to the effects obtained by external 60Co gamma irradiation. Administration of the highest radioactive concentrations, 0.2-0.5 MBq/ml in the culture medium, corresponded, after 20 min incubation, to a binding of about 1.0-2.5 dpm/cell. Such an exposure to 131I decays gave effects on cell survival corresponding to about 2.5 Gy of external gamma irradiation. Somewhat less than half of this effect came from the specific bound radioactivity and the rest from nonbound radioactivity. When administrating lower concentrations of radioactivity both the binding and the radiation effects were smaller. The observations showed that it is possible to inactivate cell-proliferation of glioma cells with specific bound 131I-EGF. The possibilities to fractionate the treatments and of binding also other toxic agents than 131I to the EGF receptor are discussed.
We have studied binding of 125I-EGF to the human malignant glioma cell line U-343 MG aCl2:6, which is planned to be used as a model system in studies of toxic effects of EGF conjugates. Special care has been taken to fulfil the requirements for a correct Scatchard analysis of binding parameters. Binding as a function of time, temperature and pH was investigated as well as dissociation and internalization of bound EGF. The stability of EGF during incubation was also determined. After binding to the receptor, EGF is rapidly internalized and degraded at physiological temperature. We found that binding experiments should be performed at 4 degrees C, since at this temperature practically no internalization took place, whereas dissociation occurred. From displacement experiments using increasing concentrations of unlabelled EGF competing with 125I-EGF for binding, binding parameters were calculated using a computerized, nonlinear, least-squares regression analysis of binding data. We found that EGF bound to a class of high affinity receptors with an apparent dissociation constant KD of about 4 x 10(-10) M. The mean number of receptors was 25,000 per cell. In experiments where receptors were saturated with 125I-EGF an additional class of low affinity receptors was detected. This had an apparent KD of 1 x 10(-8) M with a mean receptor number per cell of 780,000. We also noticed enhanced dilution-induced dissociation of bound 125I-EGF in the presence of excess unlabelled EGF, suggesting negative cooperativity.
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