Ability of retroviral transduction to modify the angiogenic characteristics of RPE cells.

Abstract

Retinal pigment epithelial (RPE) cells play an important role in the modulation of ocular angiogenesis. Transduction of RPE cells with retroviral vectors bearing modulating genes can result in long-term transgene expression and may alter the angiogenic characteristics of RPE cells. This study was designed to determine whether changes in angiogenic characteristics of RPE cells result from transduction with retroviral vectors bearing modulating genes, using in vitro angiogenic assays, including analysis of endothelial proliferation and wound healing. Human RPE cells were transduced with retroviral vectors bearing either a urokinase-type plasminogen activator (u-PA) or a tissue-type plasminogen activator (t-PA) cDNA. Ten weeks after gene transfer, RPE cells transduced with the u-PA (u-PA-RPE cells) or the t-PA cDNA (t-PA-RPE cells), or untransduced (control) RPE cells, were cocultured with human umbilical vein endothelial cells (HUVECs) by contacting and non-contacting coculture methods. The effects of these cells on proliferation and in vitro "wound healing" of HUVECs were evaluated. Over 18 weeks, u-PA-RPE cells released large amounts of biologically active u-PA (total amount, 50.2 +/- 9.7 ng/10(6) cells/24 h), while t-PA-RPE cells released large amounts of functional t-PA (15.4 +/- 3.2 ng/10(6) cells/24 h). Control RPE cells did not release any detectable t-PA or u-PA. In the proliferation assay, u-PA-RPE cells stimulated HUVEC proliferation in contacting cell cultures, but not in non-contacting cell cultures. In contrast, t-PA-RPE cells, normal RPE cells or exogenous u-PA had no effect on HUVEC proliferation. In the wound healing assay, u-PA-RPE cells in contacting coculture and exogenous u-PA stimulated wound healing of HUVECs, while non-contacting u-PA-RPE cells, t-PA-RPE cells and normal RPE cells had no effect on HUVEC wound healing. RPE cells transduced with u-PA secreted large amounts of u-PA for as long as 18 weeks, and these cells stimulate HUVEC proliferation and in vitro wound healing. As a result, the angiogenic characteristics of RPE cells can undergo long-term changes. These results suggest that genetically modified RPE cells can be used to modulate ocular angiogenesis and may have potential for gene therapy of ocular diseases.