The transcription factor IRF-1 (interferon regulatory factor 1) is an activator of type I interferon and interferon-inducible genes. IRF-1 manifests tumor suppressor activity. Its overexpression results in inhibition of cell growth, and deletions of the IRF-1 gene were demonstrated in a number of human leukemias and myelodysplasias. Although the mechanism by which IRF-1 affects cell growth is unknown, it is believed that IRF-1 activates a set of genes that negatively regulate cell growth. The double-stranded RNA-dependent protein kinase (PKR), which is an interferon-inducible gene, contains a promoter element for the binding of IRF-1 and exhibits antiproliferative properties. Consequently, we investigated the role of IRF-1 in PKR expression. Here, we show that in IRF-1-deficient embryonic fibroblasts, PKR expression is reduced relative to wild-type cells. This result predicts diminished expression of PKR as a potential consequence of deletion of the IRF-1 gene in human leukemias. We show that cells of the human leukemic U937 cell line contain a deletion of one IRF-1 gene and express low levels of PKR. We demonstrate that upregulation of IRF-1 expression in U937 cells by transfection is sufficient to induce PKR expression. We also found a marked reduction in the expression of PKR in blood samples from two patients with myelodysplasias, carrying a deletion of chromosome 5q, a locus to which IRF-1 was mapped. These results show that IRF-1 activates PKR expression and suggest that loss of one allele of the IRF-1 gene is sufficient to affect PKR expression. Therefore, PKR is a strong candidate for a mediator of the tumor suppressor activity of IRF-1.