We have transiently expressed a dominant negative form of rac1 (N17rac1) using adenoviral-mediated gene transfer. The level of N17rac1 expression is demonstrated to be proportional to the multiplicity of infection. Expression of N17rac1 in Rat 2 fibroblasts results in cytostatic growth arrest. Cell-cycle analysis demonstrates that cells expressing N17rac1 accumulate in G2/M. These results suggest that rac1 is required for cell proliferation and provide the first demonstration in mammalian cells of a role for small GTP-binding proteins in the G2/M transition.
Background
Restenosis remains a significant problem after balloon angioplasty. Previous studies have demonstrated that recombinant adenoviruses are efficient vectors for gene transfer to the arterial wall and can be used to inhibit the proliferative aspect of restenosis. We sought to extend these observations using AdCMV.CD, an adenovirus that encodes cytosine deaminase (CD) and is capable of metabolizing 5-fluorocytosine (5-FC) to 5-fluorouracil.
Methods and Results
Infection of vascular smooth muscle cells (VSMC) with AdCMV.CD increases by two to three orders of magnitude the growth-inhibitory effects of 5-FC. The degree of VSMC inhibition in vitro was a function of 5-FC concentration and the level of CD expression. Cells infected with AdCMV.CD exhibited a profound bystander effect on the growth of neighboring cells, which did not require direct cell-to-cell contact. The predominant effect of AdCMV.CD on growth of VSMC appeared to be cytostatic, not cytotoxic. Assessment of this strategy in a rabbit femoral artery model of balloon-induced injury demonstrated that compared with animals in either of two control groups, animals treated with the active combination of infection with AdCMV.CD and 1-week treatment with parenteral 5-FC had a significant reduction at 30 days in the neointimal-to-medial ratio.
Conclusions
Our results suggest that adenovirus-mediated gene transfer of CD along with 5-FC administration may be a useful strategy to treat the proliferative aspects of restenosis.
Racl is a member of the Rho family of small GTPases. Although racl has been demonstrated to regulate the cytoskeleton, relatively little is known regarding its role in directional migration of mammalian cells. To address this issue, we have used recombinant adenoviruses to transiently express in fibroblasts either a dominant negative (N 17rac 1) or constitutively active (V 12rac 1) isoform of the small GTP-binding protein rac 1. Expression of N 17rac 1 is demonstrated to inhibit PDGF-stimulated migration of rat fibroblasts. Surprisingly, expression of V 12rac 1 also inhibited, albeit to a lesser degree, the chemotactic response to PDGF. In contrast, expression of N 17rac 1 had no effect on PDGF stimulation of mitogen activated protein kinase (MAPK) or the adherence of cells to plastic or fibronectin coated surfaces. Similar to what was observed in fibroblasts, expression of N 17rac 1 inhibited the PDGF-stimutated migration of primary vascular smooth muscle cells. These results identify racl as an important downstream mediator of PDGFinduced chemotaxis.
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