BACKGROUND AND PURPOSE: Pathological angiogenesis is associated with various human diseases, such as cancer, autoimmune diseases and retinopathy. The angiopoietin (Ang)-Tie2 system plays critical roles in several steps of angiogenic remodelling. Here, we have investigated the anti-angiogenic effect of a novel angiopoietin-derived peptide. EXPERIMENTAL APPROACH: Using computational methods, we identified peptides from helical segments within angiopoietins, which were predicted to inhibit their activity. These peptides were tested using biochemical methods and models of angiogenesis. The peptide with best efficacy, A11, was selected for further characterization as an anti-angiogenic compound. KEY RESULTS: The potent anti-angiogenic activity of A11 was demonstrated in a multicellular assay of angiogenesis and in the chorioallantoic membrane model. A11 bound to angiopoietins and reduced the binding of Ang-2 to Tie2. A11 was also significantly reduced vascular density in a model of tumour-induced angiogenesis. Its ability to inhibit Ang-2 but not Ang-1-induced endothelial cell migration, and to down-regulate Tie2 levels in tumour microvessels, suggests that A11 targets the Ang-Tie2 pathway. In a rat model of oxygen-induced retinopathy, A11 strongly inhibited retinal angiogenesis. Moreover, combination of A11 with an anti-VEGF antibody showed a trend for further inhibition of angiogenesis, suggesting an additive effect. CONCLUSIONS AND IMPLICATIONS: Our results indicate that A11 is a potent anti-angiogenic compound, through modulation of the Ang-Tie2 system, underlining its potential as a therapeutic agent for the treatment of ocular and tumour neovascularization, as well as other pathological conditions that are dependent on angiogenesis.
BACKGROUND AND PURPOSE: Pathological angiogenesis is associated with various human diseases, such as cancer, autoimmune diseases and retinopathy. The angiopoietin (Ang)-Tie2 system plays critical roles in several steps of angiogenic remodelling. Here, we have investigated the anti-angiogenic effect of a novel angiopoietin-derived peptide. EXPERIMENTAL APPROACH: Using computational methods, we identified peptides from helical segments within angiopoietins, which were predicted to inhibit their activity. These peptides were tested using biochemical methods and models of angiogenesis. The peptide with best efficacy, A11, was selected for further characterization as an anti-angiogenic compound. KEY RESULTS: The potent anti-angiogenic activity of A11 was demonstrated in a multicellular assay of angiogenesis and in the chorioallantoic membrane model. A11 bound to angiopoietins and reduced the binding of Ang-2 to Tie2. A11 was also significantly reduced vascular density in a model of tumour-induced angiogenesis. Its ability to inhibit Ang-2 but not Ang-1-induced endothelial cell migration, and to down-regulate Tie2 levels in tumour microvessels, suggests that A11 targets the Ang-Tie2 pathway. In a rat model of oxygen-induced retinopathy, A11 strongly inhibited retinal angiogenesis. Moreover, combination of A11 with an anti-VEGF antibody showed a trend for further inhibition of angiogenesis, suggesting an additive effect. CONCLUSIONS AND IMPLICATIONS: Our results indicate that A11 is a potent anti-angiogenic compound, through modulation of the Ang-Tie2 system, underlining its potential as a therapeutic agent for the treatment of ocular and tumour neovascularization, as well as other pathological conditions that are dependent on angiogenesis.
Authors: Venkata R Doppalapudi; Jie Huang; Dingguo Liu; Ping Jin; Bin Liu; Lingna Li; Joel Desharnais; Crystal Hagen; Nancy J Levin; Michael J Shields; Michelle Parish; Robert E Murphy; Joselyn Del Rosario; Bryan D Oates; Jing-Yu Lai; Marla J Matin; Zemeda Ainekulu; Abhijit Bhat; Curt W Bradshaw; Gary Woodnutt; Richard A Lerner; Rodney W Lappe Journal: Proc Natl Acad Sci U S A Date: 2010-12-13 Impact factor: 11.205
Authors: Chung-Hyun Cho; Richard A Kammerer; Hyuek Jong Lee; Michel O Steinmetz; Young Shin Ryu; Sung Ho Lee; Kunio Yasunaga; Kyung-Tae Kim; Injune Kim; Han-Ho Choi; Won Kim; Sung Hyun Kim; Sung Kwang Park; Gyun Min Lee; Gou Young Koh Journal: Proc Natl Acad Sci U S A Date: 2004-04-01 Impact factor: 11.205
Authors: George C Prendergast; William J Malachowski; Arpita Mondal; Peggy Scherle; Alexander J Muller Journal: Int Rev Cell Mol Biol Date: 2017-09-21 Impact factor: 6.813
Authors: Arpita Mondal; Courtney Smith; James B DuHadaway; Erika Sutanto-Ward; George C Prendergast; Arturo Bravo-Nuevo; Alexander J Muller Journal: EBioMedicine Date: 2016-11-09 Impact factor: 8.143