Several lines of evidence indicate that hypoxia is a stimulus to vascular smooth muscle cell (VSMC) proliferation that occurs in pulmonary hypertension. The present study tested the hypothesis that low O(2) tension directly stimulates human VSMC proliferation by inducing them to produce interleukin (IL)-1, a potent autocrine growth factor for human VSMC. Human VSMC derived from pulmonary artery, aorta, or saphenous vein were incubated in either a normal in vitro O(2) environment (20% O(2)) or in chambers containing low (approximately 1%) or moderate (5%) O(2). Levels of IL-1alpha and IL-1beta mRNA increased in human VSMC after 24-48 h of incubation in low O(2) compared with levels in normoxic cells and then decreased upon subsequent reoxygenation. Levels of cell-associated IL-1alpha also increased progressively after 24-48 h in low O(2); however, detectable IL-1alpha was not released from the cells in the media. IL-1beta was detectable in cell lysates and supernatants; however, the levels were not affected by exposure to low O(2). mRNA encoding for tumor necrosis factor-alpha (TNF-alpha), a related cytokine and VSMC mitogen, was not detectable in human VSMC exposed to either low or 20% O(2). Proliferation of human VSMC was not stimulated during exposure to low O(2), despite the fact that cells remained responsive to the mitogenic effect of exogenous IL-1. Interestingly, however, exposure to 5% O(2) enhanced proliferation of human VSMC but did not induce IL-1alpha production. Inhibition of IL-1 binding to the type I IL-1 receptor by exogenous addition of IL-1-receptor antagonist (10 microgram/ml) did not attenuate the proliferation rates of human VSMC incubated in 20%, 5%, or low O(2) or in human VSMC that were reoxygenated after exposure to low O(2). These results demonstrate two direct and distinct effects of hypoxia on VSMC. Exposure to moderately low O(2) tension induces VSMC proliferation, independent of IL-1, whereas exposure to very low O(2) tension induces production of IL-1alpha.