PURPOSE: The current treatments against inflammatory angiogenesis are steroids and anti-VEGF-A, such as dexamethasone and bevacizumab, respectively. However, the therapeutic windows for dexamethasone and bevacizumab against inflammatory angiogenesis are unknown. METHODS: To investigate the therapeutic windows for dexamethasone and bevacizumab, we used the corneal pocket assay. IL-1β pellets were implanted in corneas of BALB/c mice that were then treated with dexamethasone or bevacizumab at different time points. Angiogenesis (area, number of vessels, and sprouting) was quantitated at various time points after implantation. Nuclear Factor-κB (NF-κB) signaling and leukocyte accumulation in inflammatory angiogenesis were examined by Western blotting, by immunohistochemistry, and in the authors' novel leukocyte transmigration assay. RESULTS: Dexamethasone inhibited IL-1β-induced angiogenesis when treatment started 4 days after IL-1β implantation, while bevacizumab only inhibited angiogenesis by day 2 after implantation. Both bevacizumab and dexamethasone inhibited angiogenic sprouting. Interestingly, bevacizumab did not affect NF-κB activation, which is one of the main signaling targets for steroid action. The authors' new imaging approach revealed that bevacizumab and steroid treatment blocked leukocyte infiltration into implanted corneas. CONCLUSIONS: VEGF-A inhibition affected angiogenic sprouting, while it was not effective against matured vessels. Both dexamethasone and bevacizumab inhibited leukocyte transmigration from angiogenic vessels; however, dexamethasone had a larger therapeutic window. These insights improve the treatment strategy in angiogenic disorders.
PURPOSE: The current treatments against inflammatory angiogenesis are steroids and anti-VEGF-A, such as dexamethasone and bevacizumab, respectively. However, the therapeutic windows for dexamethasone and bevacizumab against inflammatory angiogenesis are unknown. METHODS: To investigate the therapeutic windows for dexamethasone and bevacizumab, we used the corneal pocket assay. IL-1β pellets were implanted in corneas of BALB/c mice that were then treated with dexamethasone or bevacizumab at different time points. Angiogenesis (area, number of vessels, and sprouting) was quantitated at various time points after implantation. Nuclear Factor-κB (NF-κB) signaling and leukocyte accumulation in inflammatory angiogenesis were examined by Western blotting, by immunohistochemistry, and in the authors' novel leukocyte transmigration assay. RESULTS:Dexamethasone inhibited IL-1β-induced angiogenesis when treatment started 4 days after IL-1β implantation, while bevacizumab only inhibited angiogenesis by day 2 after implantation. Both bevacizumab and dexamethasone inhibited angiogenic sprouting. Interestingly, bevacizumab did not affect NF-κB activation, which is one of the main signaling targets for steroid action. The authors' new imaging approach revealed that bevacizumab and steroid treatment blocked leukocyte infiltration into implanted corneas. CONCLUSIONS:VEGF-A inhibition affected angiogenic sprouting, while it was not effective against matured vessels. Both dexamethasone and bevacizumab inhibited leukocyte transmigration from angiogenic vessels; however, dexamethasone had a larger therapeutic window. These insights improve the treatment strategy in angiogenic disorders.
Authors: Herbert Hurwitz; Louis Fehrenbacher; William Novotny; Thomas Cartwright; John Hainsworth; William Heim; Jordan Berlin; Ari Baron; Susan Griffing; Eric Holmgren; Napoleone Ferrara; Gwen Fyfe; Beth Rogers; Robert Ross; Fairooz Kabbinavar Journal: N Engl J Med Date: 2004-06-03 Impact factor: 91.245
Authors: Sarah X Zhang; Jacey H Ma; Maulasri Bhatta; Steven J Fliesler; Joshua J Wang Journal: Prog Retin Eye Res Date: 2014-12-18 Impact factor: 21.198
Authors: Jin Woo Kwon; Jin A Choi; Eun Young Shin; Tae Yoon La; Dong Hyun Jee; Yeon Woong Chung; Yang Kyung Cho Journal: Int J Ophthalmol Date: 2016-11-18 Impact factor: 1.779