Interferon in combination with antitumourigenic phenyl derivatives: potentiation of IFNα activity in‐vitro

Abstract

Any attempt to eradicate the heterogeneous cell population of a tumour mass would require the use of appropriate combination treatment protocols. The antitumour effects of interferon alpha (IFN alpha) in combination with AS2-1, the hydrolysis product of 3-phenylacetyl-amino-2,6-piperidinedione, were examined using several human tumour cell lines as a model. These included the malignant melanoma A375, adenocarcinoma of the prostate PC3 (hormone-insensitive bone metastasis), and the erythroleukaemia line K562. AS2-1 suppressed tumour growth through non-toxic mechanisms, with 1 mg/ml causing approximately 50% inhibition of the melanoma and prostate tumour cell proliferation. By contrast, primary normal human skin fibroblasts were significantly less sensitive to the antiproliferative effect of AS2-1. Suppression of tumour growth was seen also with AS2-1 treatment of the erythroleukaemia K562; in these cultures the drug also induced dose-dependent differentiation, as indicated by the increased haemoglobin production. Interestingly, addition of low doses of IFN alpha markedly enhanced the antitumour and differentiating effects observed with AS2-1. Treatment with 200-300 IU/ml of IFN (which caused about 20% inhibition of growth) together with 1 mg/ml of AS2-1 resulted in over 80% inhibition of the melanoma and prostate cancer cell proliferation, suggesting a synergistic activity of the two agents. This was substantiated by quantitative analysis of the differentiation induced in K562 erythroleukaemia. It appears, therefore, that IFN alpha and AS2-1 may act through synergistic mechanisms to effectively inhibit tumour growth and promote differentiation in a variety of human malignant cell lines.