The sequential transcriptional activation of cyclins, the regulatory subunits of cell-cycle-specific kinases, is thought to regulate progress through the cell cycle. Cyclins are therefore potential oncogenes, and cyclin D1 overexpression and/or amplification at its genomic locus, 11q13, are common features of several human cancers. Induction of cyclin D1 is an early response to mitogenic stimulation in several cell types, but the consequences of altered expression of this gene in human cells of epithelial origin remain undefined. We assessd the effects of alterations of cyclin D1 expression in human breast cancer cells by generating T-47D cells expressing human cyclin D1 under the control of a zinc-responsive metallothionein promoter. In cycling cells induction of cyclin D1 after zinc treatment resulted in an increase in the number of cells progressing through G1 and in the rate of transition from G1 to S phase, indicating that cyclin D1 is rate-limiting for progress through G1 phase. In cells arrested in early G1 phase after growth factor deprivation, zinc induction of cyclin D1 was sufficient for completion of the cell cycle, a process requiring growth factor stimulation in control cells. These data demonstrate a critical role for cyclin D1 in human breast cancer cell-cycle control and suggest that deregulated expression of cyclin D1 is likely to reduce dependence on normal physiological growth stimuli, thereby providing a growth advantage to tumor cells and a potential mechanism of resistance to endocrine therapy.Cell-cycle progression in mammalian cells is coordinated at a series of control points, which ensure orderly progress through the complex and tightly regulated processes necessary for cell growth and division. The central mechanism for these control points is thought to be the sequential transcriptional activation of cycin genes and consequent transient accumulation of different cyclin/cycin-dependent kinase (CDK) complexes. In synchronized or growth factorstimulated cells, cyclins C, D1, D2, D3, and E are most abundant during G1 phase (1-3), suggesting that they function during G1. The D cyclins have closely related sequences but are differentially expressed: some cells express all three genes [for example, mammary epithelial cells (4)], but many cell types express only one or two (2,5,6). Furthermore, these cyclins are not coordinately regulated but, in general, appear sequentially during progress through G1 phase (2, 6-9), suggesting that they have complementary rather than redundant functions.Regulation of cyclin D1 gene expression is closely associated with changes in the proliferation rate of breast cancer cells. Increased expression of cyclin D1 occurs within 2 hr of stimulation of T-47D breast cancer cells by peptide mitogens-for example, insulin, insulin-like growth factor I, and basic fibroblast growth factor-and is followed by induction of other G1 cyclins, cyclins D3 and E, as cells progress through G1 phase (ref. 8, unpublished data). The proportion of cells that enter S phase is...
