Veronica Celentano scite author profile

The ability to modulate angiogenesis by chemical tools has several important applications in different scientific fields. With the perspective of finding novel proangiogenic molecules, we searched peptide sequences with a chemical profile similar to that of the QK peptide, a well described VEGF mimetic peptide. We found that residues 1617-1627 of the IQGAP1 protein show molecular features similar to those of the QK peptide sequence. The IQGAP1-derived synthetic peptide was analyzed by NMR spectroscopy and its biological activity was characterized in endothelial cells. These studies showed that this IQGAP1-derived peptide has a biological activity similar to that of VEGF and could be considered as a novel tool for reparative angiogenesis.

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C-terminal truncation of Vascular Endothelial Growth Factor mimetic helical peptide preserves structural and receptor binding properties

Ziaco

Diana

Capasso

et al. 2012

Biochemical and Biophysical Research Communications

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VEGFR Recognition Interface of a Proangiogenic VEGF‐Mimetic Peptide Determined In Vitro and in the Presence of Endothelial Cells by NMR Spectroscopy

Stasi

Diana

Capasso

et al. 2018

Chemistry A European J

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QK peptide is a vascular endothelial growth factor (VEGF)-mimetic molecule with significant proangiogenic activity. In particular, QK is able to bind and activate VEGF receptors (VEGFRs) to stimulate a functional response in endothelial cells. To characterize the peptide bioactivity and its molecular recognition properties, a detailed picture of the interaction between peptide QK and VEGF receptors is reported. By combining NMR spectroscopy studies in solution on the purified receptor and in the presence of intact endothelial cells, a molecular description of the binding interaction between peptide QK and VEGFR2 in the cellular context is obtained. These results reveal useful insights into the peptide biological mechanism, which opens the way to further optimization of this class of VEGF-mimicking peptides.

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1,2,3‐Triazole Bridge as Conformational Constrain in β‐Hairpin Peptides: Analysis of Hydrogen‐Bonded Positions

Celentano

Diana

Salvo

et al. 2016

Chemistry A European J

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