Poster Sessions BP02: Oligodendrocytes and Schwann Cells. RAS activation regulates angiogenic and anti‐angiogenic factor expression in NF1‐derived Schwann cells

Neurofibromatosis Type 1 tumors are highly vascularized and contain Schwann cells with hyperactivated Ras. In vitro , the NF1‐derived neurofibromin deficient Schwann cells have an angiogenic profile, which favors angiogenesis and sustains the growth of the NF1‐derived tumors. This study examined the relationship of the activation state of Ras as it related to the expression of angiogenic and antiangiogenic factors in both cultured NF1‐derived Schwann cells and normal human Schwann cells. Western blot analysis of normal human Schwann cells revealed low expression of angiogenic vascular endothelial growth factor (VEGF) as well as low expression of the antiangiogenic pigment epithelium derived factor (PEDF). Relative to normal human Schwann cells, NF1‐derived Schwann cells have increased RAS activity and a three‐fold increase in VEGF expression. Surprisingly, PEDF was also expressed in the NF1‐derived Schwann cells at approximately the same level as VEGF expression. Using a retroviral construct, we introduced the GAP‐related domain of neurofibromin into the NF1‐derived Schwann cells to reduce the level of activated Ras. Relative to the untreated NF1‐derived Schwann cells the Schwann cells expressing the GAP‐related domain expressed about one‐half the VEGF but twice the PEDF. We conclude that decreasing the Ras activity in NF1‐drived Schwann cells will not only decrease proliferation, but also slow tumor angiogenesis due to the decreased expression of angiogenic and increased expression of antiangiogenic factors.