In vivo administration of tumor necrosis factor-alpha (TNF) suppresses both normal and Friend virus (FVA)-infected erythroid progenitor cells (CFU-E). To examine the mechanism of erythroid suppression by TNF, we examined TNF's direct effect on normal and virus-infected cells in vitro. Productively infected fibroblast cell lines, fresh acute virus-infected spleen cells, and virus-infected CFU-E were sensitive, whereas uninfected CFU-E were resistant to TNF cytotoxicity in vitro. When FVA-infected erythroblasts were depleted from the spleen cell population in vitro with antivirus antibodies, TNF suppression of the remaining (uninfected) cells was abrogated. In contrast, both normal and virus-infected macrophage progenitor cells and immature erythroid progenitor cells were equally sensitive to TNF cytotoxicity in vitro. Normal erythroblasts had significantly fewer TNF receptors than FVA-infected erythroblasts, which also were morphologically less mature. These results suggest that TNF can differentially suppress late-stage virus-infected erythroid progenitors in vitro.