Abstract
Vasoactive cytokines, such as IL-1α and TNF-α, modulate the homeostatic state at the endothelial surface and cause various types of pathological damage in vascular systems. We investigated the potential therapeutic effects of IL-1α and TNF-α in combination with hyperthermia on SCK tumours grown in the legs of A/J mice. We first determined the effect of cytokines on tumour blood perfusion with the 86Rb uptake method. When the host mice were given an i.p. injection of 25 μg/kg IL-1α or 50 μg/kg TNF-α, the tumour blood perfusion markedly declined to 46 and 82% of control, respectively. The combination of IL-1α and TNF-α reduced the 86Rb uptake to 41% of control. Hyperthermia at 42·5°C for 1 h reduced the tumour blood flow to 71% of control. The tumour blood perfusion decreased further to 20% of control when the tumours were heated for 1 h at 42.5°C starting 4h after the injection of both IL-1α and TNF-α. The changes in clonogenic cell numbers in SCK tumours, as determined by the in vivo-in vitro assay, following various treatments was also investigated. At 4h after an i.p. injection of 25 μg/kg IL-1α or 50 μg/kg TNF-α, the clonogenicity of SCK tumours significantly decreased to 29 or 37% of control, respectively. Heating at 42.5°C for 1h caused a decline in the clonogenic cell number to 30% of control. When both IL-1α and TNF-α were given and tumours were heated 4h later at 42·5°C for 1h, the clonogenic cell number markedly declined to 0.4% of control. The time needed for control tumours to reach 4x their initial volume was about 3 days, and treatment with IL-1α or hyperthermia alone induced a tumour delay growth by about 1 day. The combined injection of IL-1α and TNF-α followed by a heating at 42·5°C for 1h delayed the tumour growth by 6 days. The results in this study suggest that prior impairment of blood circulation by the combined treatment of IL-1α and TNF-α potentiates hyperthermic damage in tumours.
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