Amelioration of B16F10 melanoma lung metastasis in mice by a combination therapy with indomethacin and interleukin 2.

Our earlier work revealed that PGE-mediated inactivation of NK cells in tumor-bearing mice by host macrophages promoted spontaneous lung metastasis that could be prevented or ameliorated by chronic indomethacin therapy. Since PGE was found to suppress the in vitro development and/or activation of a family of tumoricidal lymphocytes such as CTL, NK, and LAK cells by one or both of two mechanisms, that is to say, a down regulation of IL-2-R and an inhibition of IL-2 production, the present study tested whether a combined therapy with indomethacin and IL-2 was more effective than one with indomethacin or IL-2 alone in ameliorating established experimental lung metastasis. B6 mice injected intravenously with 10(6) highly metastatic B16F10 melanoma cells showed profuse micrometastases in the lungs by day 5, and macrometastases by day 10 which were confluent on day 21. Chronic indomethacin therapy by the oral route (14 micrograms/ml in drinking water) starting on day 0 or day 5, or a single round of IL-2 therapy (25,000 U rIL-2, every 8 h for 5 d on days 10-14) reduced the number of metastatic nodules by two-thirds (from a median of 473 in control mice receiving vehicles alone) by day 21. A single round of IL-2 as above, combined with either protocol of indomethacin therapy, completely or nearly completely irradicated the lung metastases, corroborated by a histological examination. An evaluation of splenic killer cell activity measured with a 4-h 51Cr-release assay against NK-sensitive YAC-1 lymphoma and B16F10 melanoma or NK-resistant thymic lymphoma 9705 targets revealed negligible activity in control tumor-bearing mice, and a good restoration of activity against NK-sensitive targets with either protocols of indomethacin therapy. IL-2 alone or a combination of IL-2 and indomethacin given by either protocol generated strong killer activity against all these targets, most marked with the combination therapy. Splenic killer cell phenotype in normal as well as all treated animals was ASGM1+, Thy-1-, and Lyt-2-. The combination therapy resulted in the strongest mononuclear cell infiltration in the lungs, with areas of young granulation tissue suggestive of repair sites of original metastases.