Sabrina Rizzolio scite author profile

Recruitment of tumor-associated macrophages (TAMs) into avascular areas sustains tumor progression; however, the underlying guidance mechanisms are unknown. Here, we report that hypoxia-induced Semaphorin 3A (Sema3A) acts as an attractant for TAMs by triggering vascular endothelial growth factor receptor 1 phosphorylation through the associated holoreceptor, composed of Neuropilin-1 (Nrp1) and PlexinA1/PlexinA4. Importantly, whereas Nrp1 levels are downregulated in the hypoxic environment, Sema3A continues to regulate TAMs in an Nrp1-independent manner by eliciting PlexinA1/PlexinA4-mediated stop signals, which retain them inside the hypoxic niche. Consistently, gene deletion of Nrp1 in macrophages favors TAMs' entrapment in normoxic tumor regions, which abates their pro-angiogenic and immunosuppressive functions, hence inhibiting tumor growth and metastasis. This study shows that TAMs' heterogeneity depends on their localization, which is tightly controlled by Sema3A/Nrp1 signaling.

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Sema3E–Plexin D1 signaling drives human cancer cell invasiveness and metastatic spreading in mice

Casazza¹,

Finisguerra²,

Capparuccia³

et al. 2010

J. Clin. Invest.

168

159

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Semaphorin 3E (Sema3E) is a secreted molecule implicated in axonal path finding and inhibition of developmental and postischemic angiogenesis. Sema3E is also highly expressed in metastatic cancer cells, but its mechanistic role in tumor progression was not understood. Here we show that expression of Sema3E and its receptor Plexin D1 correlates with the metastatic progression of human tumors. Consistent with the clinical data, knocking down endogenous expression of either Sema3E or Plexin D1 in human metastatic carcinoma cells hampered their metastatic potential when injected into mice, while tumor growth was not markedly affected. Conversely, overexpression of exogenous Sema3E in cancer cells increased their invasiveness, transendothelial migration, and metastatic spreading, although it inhibited tumor vessel formation, resulting in reduced tumor growth in mice. The proinvasive and metastatic activity of Sema3E in tumor cells was dependent on transactivation of the Plexin D1-associated ErbB2/Neu oncogenic kinase. In sum, Sema3E-Plexin D1 signaling in cancer cells is crucially implicated in their metastatic behavior and may therefore be a promising target for strategies aimed at blocking tumor metastasis.

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Neuropilin-1–Dependent Regulation of EGF-Receptor Signaling

et al. 2012

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Neuropilin-1 (NRP1) is a coreceptor for multiple extracellular ligands. NRP1 is widely expressed in cancer cells and in advanced human tumors; however, its functional relevance and signaling mechanisms are unclear. Here, we show that NRP1 expression controls viability and proliferation of different cancer cells, independent of its short intracellular tail. We found that the extracellular domain of NRP1 interacts with the EGF receptor (EGFR) and promotes its signaling cascade elicited upon EGF or TGF-a stimulation. Upon NRP1 silencing, the ability of ligand-bound EGFR to cluster on the cell surface, internalize, and activate the downstream AKT pathway is severely impaired. EGFR is frequently activated in human tumors due to overexpression, mutation, or sustained autocrine/paracrine stimulation. Here we show that NRP1-blocking antibodies and NRP1 silencing can counteract ligand-induced EGFR activation in cancer cells. Thus our findings unveil a novel molecular mechanism by which NRP1 can control EGFR signaling and tumor growth. Cancer Res; 72(22); 5801-11. Ó2012 AACR.

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Multifaceted Role of Neuropilins in Cancer

Rizzolio

Tamagnone²

2011

CMC

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Neuropilins comprise two homologous widely-expressed single-pass plasma membrane receptors (Nrp1 and Nrp2), originally identified for binding secreted Semaphorins and Vascular Endothelial Growth Factors (in association with Plexins and VEGF-Receptors). Semaphorins have been implicated with opposite functions in cancer: either as putative tumor suppressors and anti-angiogenic factors, or mediating tumour angiogenesis, invasion and metastasis. Moreover, due to their implication in VEGF signaling, neuropilins regulate vascular development and tumor angiogenesis. Recent evidence further suggests a role of neuropilins in cancer progression due to their interaction with receptor tyrosine kinases, adhesion molecules, and integrins. Furthermore, neuropilins have been implicated in response to additional growth factors, such as Hepatocyte Growth Factor, Fibroblast Growth Factor, Transforming Growth Factor beta, Galectin, etc. Altogether, these data seem to qualify neuropilins as signaling platforms on the cell surface, potentially capable of regulating cancer cells, as well as cells of the tumor microenvironment. Intriguingly, clinical-pathological data often indicate a correlation between increased expression of neuropilins and advanced stage tumors with poor prognosis. In this article, we will review the current experimental evidence about the functional role of neuropilins in cancer and the underlying molecular mechanisms.

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