Abstract 234: Interleukin 2 Promotes Proliferation and Migration in Vascular Smooth Muscle Cells

Interleukin-2 (IL-2) is primarily known as a soluble cytokine that regulates T cell responses. We previously reported, however, that IL-2 is retained in the extracellular matrix by association with perlecan, a heparan sulfate proteoglycan (HSPG). Perlecan is the main HSPG in vascular basement membranes, and previous studies from our laboratory demonstrated that, in human arteries, vascular smooth muscle cells (VSMC) are surrounded by perlecan-bound IL-2. We also noted that IL-2 deficient mice lose SMCs with age, leading to widened esophagi and aortic aneurysms. Given this information, we hypothesized that IL-2 has a direct impact on VSMC, and that VSMC express functional IL-2 receptors (IL-2R). We therefore examined both protein and mRNA expression of each of the three IL-2R subunits (alpha, beta, gamma) on human VSMC grown from arterial explants. These VSMC expressed SMC actin, smooth muscle myosin heavy chain, and when quiescent, smoothelin. Protein expression was assessed by in cell Western and by Western blot analysis. Receptor expression was evaluated under distinct culture conditions, which yielded highly proliferative, intermediate, or quiescent VSMC. Contractile protein expression was low, intermediate, or high, respectively, consistent with the characteristics of proliferating vs quiescent SMCs. Each phenotype expressed all 3 subunits of the IL-2R. IL-2 subunits appeared to follow a cytoskeletal pattern in cells expressing high levels of contractile proteins. Western blot analysis of VSMC lysates revealed expression of all 3 receptors at molecular weights identical to lysates from a T cell line. VSMCs also expressed mRNA for each receptor subunit. Functionally, IL-2 promoted migration (using a Boyden chamber assay) and proliferation in a dose dependent fashion. Because excess proliferation and migration are critical to intimal hyperplasia, we asked whether IL-2 levels change under conditions known to generate intimal hyperplasia. In a rabbit model, IL-2 mRNA increased in venous grafts exposed to high flow for 2h. IL-2 levels, by Western blot, were also increased in human hyperplastic veins. In conclusion, these data show that VSMC have functional IL-2R, and suggest that IL-2 may contribute to the development of intimal hyperplasia.