Effects of scheduling and ascites-associated macrophages on combined antiproliferative activity of alpha-2b interferon and gamma-interferon in a clonogenic assay.

Effects of combination treatment with human recombinant alpha-2b interferon (IFN-alpha 2b) and gamma interferon (IFN-gamma) and sequencing of the combination on colony formation of human tumor cells were studied in a human tumor clonogenic assay (HTCA) with or without ascites-associated macrophages (AAM). Five different human tumor cell lines were studied. Three of the five cell lines (ovarian cancer cell line BG-1, cervical cancer cell line ME-180, and melanoma cell line SK-MEL 28) were sensitive to both IFNs. Cervical cancer cell line CaSki was sensitive to IFN-alpha 2b but resistant to IFN-gamma. Endometrial cancer cell line HEC-1A was resistant to both IFNs. Synergistic interaction was observed in BG-1 and SK-MEL 28 with a combination of the IFNs. ME-180 did not exhibit a positive interaction, in spite of its sensitivity to each IFN. CaSki and HEC-1A also did not exhibit a positive combined interaction at clinically achievable concentrations. One sequential combination method (method 1: IFN-alpha 2b----IFN gamma with a 24-h interval) resulted in a similar antitumor effect as the simultaneous combination. A reversed sequential method (method 2: IFN-gamma----IFN-alpha 2b with a 24-h interval) was less effective in three of the five cell lines. In BG-1, AAM enclosed in the lower layer markedly enhanced the antitumor effect of combined IFNs as well as each IFN alone. The antitumor effect with method 1 was significantly greater than that achieved with simultaneous combination or combination according to method 2 in the presence of AAM (P less than 0.01). These results suggest that (1) a synergistic antitumor effect of IFN-alpha 2b and IFN gamma is demonstrable in selected types of tumors, depending upon the sensitivity of each tumor cell line to both IFNs; (2) optimal scheduling for the direct antitumor effect of combined IFNs seems to be long-term exposure of cells to the IFN, the cells being treated with both IFNs either simultaneously or sequentially (IFN-alpha 2b preceding IFN-gamma); and (3) AAM potentiate the antitumor effect of IFNs either alone or in combination. Finally, IFN-alpha 2b may have some priming effects for the indirect effect of IFN gamma mediated through AAM in certain tumor cells.