Proliferation of eukaryotic cells is orchestrated by a series of cellular proteins which participate in various stages of the cell cycle to guide the cell through mitosis. Some of these proteins, including E2F1, play a critical role in G1 and S phases by coordinately regulating expression of several important cell cycle-associated genes. On the basis of recent observations indicating a block in human immunodeficiency virus type 1 (HIV-1) replication in cells arrested in G1/S phase of the cell cycle, we sought to evaluate the regulatory action of E2F1 on transcription from the HIV-1 long terminal repeat (LTR). Results from transient transfection of cells with an E2F1 expression plasmid indicated that E2F1 has the ability to suppress basal transcriptional activity of the LTR and to diminish the extent of the Tat-induced activation of the viral promoter. Deletion analysis of the HIV-1 LTR in transfection studies revealed the presence of two major elements responsive to E2F1 repression located distally (-454 to -381) and proximally (-117 to -80) with respect to the +1 transcription start site. E2F1-mediated suppression of LTR activity was observed in a wide range of human cell lines. Expression of E2F1 by a transgene showed an inhibitory effect on the levels of reverse transcriptase activity obtained upon introduction of the proviral genome into cells. The data presented in this study suggest that cellular regulatory proteins involved in the progression of cells through the mitotic cycle could play crucial roles in determining the efficiency of HIV-1 replication during the various stages of infection. The possible roles of these factors in viral latency and activation are discussed.