Objective-The role of semaphorins in tumor progression is still poorly understood. In this study, we aimed at elucidating the regulatory role of semaphorin 3A (SEMA3A) in primary tumor growth and metastatic dissemination. Methods and Results-We used 3 different experimental approaches in mouse tumor models: (1) overexpression of SEMA3A in tumor cells, (2) systemic expression of SEMA3A following liver gene transfer in mice, and (3) tumor-targeted release of SEMA3A using gene modified Tie2-expressing monocytes as delivery vehicles. In each of these experimental settings, SEMA3A efficiently inhibited tumor growth by inhibiting vessel function and increasing tumor hypoxia and necrosis, without promoting metastasis. We further show that the expression of the receptor neuropilin-1 in tumor cells is required for SEMA3A-dependent inhibition of tumor cell migration in vitro and metastatic spreading in vivo. Conclusion-In sum, both systemic and tumor-targeted delivery of SEMA3A inhibits tumor angiogenesis and tumor growth in multiple mouse models; moreover, SEMA3A inhibits the metastatic spreading from primary tumors. These data support the rationale for further investigation of SEMA3A as an anticancer molecule. Key Words: angiogenesis Ⅲ molecular biology Ⅲ pathology Ⅲ receptors Ⅲ vascular biology Ⅲ metastasis Ⅲ neuropilin Ⅲ semaphorin Ⅲ tumor S emaphorins are a highly conserved family of molecules originally identified as axon guidance factors. 1,2 Notably, over the past few years, distinct semaphorins have been implicated in additional biological processes, including angiogenesis, immune regulation, and cancer. 3,4
See accompanying article on page 721Semaphorin function is mediated by a family of plasma membrane receptors, the plexins. 5 However, most secreted semaphorins (including semaphorin 3A [SEMA3A]) cannot bind to plexins directly; rather, they interact with plexinassociated coreceptors, namely neuropilin-1 (NP1) and neuropilin-2 (NP2). 3,5 Interestingly, NPs also bind vascular endothelial growth factor family members and associate in complex with vascular endothelial growth factor receptors, 6 playing a crucial role in angiogenesis beyond axon guidance. 3 In particular, SEMA3A signaling is fully dependent on the receptor NP1, whereas little is known about the requirement of specific plexins in its receptor complex.So far, SEMA3A has been reported to inhibit the growth of certain experimental tumors 7 and to regulate endothelial cell migration and apoptosis in vitro, 8,9 as well as arteriogenesis in the muscle, 10 skin vessel permeability, 11 and tumor angiogenesis in vivo. 12 However, the functional significance of SEMA3A signaling as a molecular target to control tumor progression is still poorly understood. Generally, tumor blood vessels display a chaotic architecture that leads to impaired tumor perfusion, elevated tissue hypoxia, and substantial cell death. It has been shown that antiangiogenic treatments targeting vascular endothelial growth factor signaling can disrupt tumor blood vessels and increase tum...
