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Response to "Binding of the C-terminal amino acids of VEGF₁₂₁ directly with neuropilin-1 should be considered"

Cancer and Vascular Biology Research Center, Rappaport Research Institute in the Medical Sciences, The Bruce Rappaport Faculty of Medicine, Technion, Israel Institute of Technology, Haifa, Israel

¹Correspondence: gera{at}tx.technion.ac.il

We have recently found that neuropilin-1 and neuropilin-2 enhance VEGF₁₂₁ induced signal transduction mediated by the VEGFR-2 tyrosine kinase receptor (1) . This observation was surprising because several previous studies have shown that VEGF₁₂₁ does not bind to native neuropilins of endothelial cells or to recombinant neuropilins (2 , 3) . Our observation suggests that neuropilins may enhance VEGFR-2-mediated VEGF signaling even when the VEGF binding site of neuropilin-1 is not occupied by VEGF.

In their letter, Drs. Von-Wronski, Tweedle, and Nunn point out that several small peptides containing sequences homologous to the sequence found at the C-terminal of exon-8 of the VEGF gene are able to inhibit the binding of VEGF₁₆₅ to neuropilin-1 and inhibit VEGF₁₆₅ induced signaling. These results suggest that all VEGF forms containing this exon, including VEGF₁₂₁, should be able to bind to neuropilin-1. Knowing that VEGF₁₂₁ does not normally bind to neuropilins the authors of the letter suggest that neuropilin-1 may display increased affinity towards VEGF₁₂₁ when in complex with VEGFR-2, thereby enabling binding of VEGF₁₂₁ to neuropilin-1. This alternative hypothesis predicts that these peptides should be able to inhibit neuropilin-1-mediated enhancement of VEGFR-2 signaling induced by VEGF₁₂₁, provided that the mechanism by which these peptides inhibit the biological effect of neuropilin-1 on VEGF signaling is indeed dependent on their ability to inhibit VEGF binding to neuropilin-1.

When we noticed that neuropilins enhance VEGFR-2-mediated VEGF₁₂₁ signaling, we did think of the possibility suggested by the authors of the letter. We published a manuscript several years ago in which we showed that VEGF₁₂₁ is able to bind to neuropilin-1 and neuropilin-2 in the presence of VEGFR-1 (4) . Therefore, following our initial observation, we conducted cross-linking experiments in which we cross-linked ¹²⁵I-VEGF₁₂₁ to PAE cells coexpressing VEGFR-2 and either neuropilin-1 or neuropilin-2. We used ¹²⁵I-VEGF₁₂₁ at concentrations of up to 100 ng/ml. However, we could not detect ¹²⁵I-VEGF₁₂₁/np1 or ¹²⁵I-VEGF₁₂₁/np2 complexes in these experiments. We did not show a figure containing these data in the manuscript due to their negative nature, but we described these experiments and their outcome in the results section. The results of these experiments represent a major reason for favoring the model we proposed in the manuscript. Secondly, neuropilin-1 enhanced ¹²⁵I-VEGF₁₆₅ binding to VEGFR-2 at low ¹²⁵I-VEGF₁₆₅ concentrations, but at these concentrations we could not observe binding to neuropilin-1, arguing independently that the VEGF binding site does not need to be occupied for neuropilin-1 mediated enhancement.

Nevertheless, it is still possible, although we think less likely, that when in complex with VEGFR-2, neuropilins assume a conformation that allows VEGF₁₂₁ to bind to neuropilins, but does not allow the homobifunctional cross-linkers we used to cross-link the bound VEGF₁₂₁ to neuropilins, resulting in incorrect conclusions. If that is what happens, than this neuropilin conformation must differ considerably from the neuropilin conformation induced by VEGFR-1 since in that case we were able to cross-link VEGF₁₂₁ to neuropilins (4) . Examining this possibility may be worthwhile but it may not be easy to design such an experiment. It should be noted that it is not sufficient to show that a peptide such as Tuftsin inhibits neuropilin-enhanced VEGF₁₂₁ activity, because the mechanism by which these peptides inhibit the biological effect of neuropilin-1 may be unrelated to their effect on VEGF₁₆₅ binding to neuropilin-1.

FOOTNOTES

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REFERENCES

1. Shraga-Heled, N., Kessler, O., Prahst, C., Kroll, J., Augustin, H. G., Neufeld, G. (2006) Neuropilin-1 and neuropilin-2 enhance VEGF₁₂₁ stimulated signal transduction by the VEGFR-2 receptor. FASEB J. 21,915-926[CrossRef][Medline]
2. Soker, S., Takashima, S., Miao, H. Q., Neufeld, G., Klagsbrun, M. (1998) Neuropilin-1 is expressed by endothelial and tumor cells as an isoform specific receptor for vascular endothelial growth factor. Cell 92,735-745[CrossRef][Medline]
3. Gluzman-Poltorak, Z., Cohen, T., Herzog, Y., Neufeld, G. (2000) Neuropilin-2 and Neuropilin-1 are receptors for 165-amino acid long form of vascular endothelial growth factor (VEGF) and of placenta growth factor-2, but only neuropilin-2 functions as a receptor for the 145 amino acid form of VEGF. J. Biol. Chem. 275,18040-18045[Abstract/Free Full Text]
4. Gluzman-Poltorak, Z., Cohen, T., Shibuya, M., Neufeld, G. (2001) Vascular endothelial growth factor receptor-1 and neuropilin-2 form complexes. J. Biol. Chem. 276,18688-18694[Abstract/Free Full Text]

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