Alpha-interferon broadens the difference between surviving fractions of normal and leukemic progenitor cells in vitro by heat: its application to marrow purging.

Alpha-interferon (IFN) may inhibit the proliferation of human leukemic progenitor cells (L-CFU) in vitro and enhance the anti-tumor effects by heat. In this study, the combined effects of IFN and hyperthermia on the growth of L-CFU and human granulocyte-macrophage progenitors (CFU-GM) were examined to determine if this combination resulted in a greater selective killing of L-CFU than that obtained by heat treatment alone. The survival of normal CFU-GM without IFN decreased at elevated temperatures (42-44 degrees C). However, IFN added during heating (42 and 43 degrees C) appeared significantly to protect against the hyperthermic killing of CFU-GM in vitro leaving over 50% of CFU-GM surviving. The optimal dose to protect CFU-GM in vitro dropped to a rather low dose (100 U/ml). On the other hand, the addition of IFN to leukemic cell suspensions enhanced the hyperthermic killing of myeloid leukemic cell lines (HEL and KG-1) as well as a T lymphoblastic cell line (CEM) in a dose-related manner. In addition, similar results were observed in the study of L-CFU from patients with acute myelogenous leukemia. These results suggest that IFN can be used to broaden the difference between surviving fractions of CFU-GM and L-CFU by heat. Thus, this combination could be applied effectively and safely for the elimination of residual clonogenic leukemic cells in autologous remission marrow graft before autologous bone marrow transplantation.