The Role of Semaphorin 3E Signaling in Neovascular AMD
Existing antiangiogenic therapies targeting VEGF have provided significant benefits to patients with wet AMD. However, even with scheduled monthly injections, many patients don’t achieve substantial improvement in visual acuity. In addition, agents that directly negate VEGF may carry a risk of prolonged systemic exposure, which could increase the possibility of serious side effects. Novel therapies are still needed for better control of wet AMD and regaining visual acuity. Dr. Gu’s laboratory has recently discovered a novel molecular signaling cascade that regulates new blood vessel growth via an intriguing reciprocal interaction between VEGF and the traditional axon (nerve cell) guidance ligand-receptor signaling of Sema3E and Plexin-D1. They found that VEGF induces Plexin-D1 expression and the Sema3E-Plexin-D1 signaling in turn inhibits the activity of VEGF-induced Notch protein signaling to control new retinal blood vessel growth. Importantly, in comparison to the VEGF receptor which is universally expressed in all blood vessels, the team found that Plexin-D1 is only expressed in actively sprouting vessels, and is dramatically downregulated in established blood vessels. New therapies targeting the Sema3E-Plexin-D1 signaling pathway could provide novel blood vessel growth-blocking therapies that offer superior specificity, and could be used alone or in combination with the VEGF antagonists.
Compared to anti-VEGF treatments, treatments targeting Sema3E-Plexin-D1 signaling would potentially be superior because Plexin-D1 is only expressed in abnormally-formed vessels but not in normal vessels. Accordingly, this future, targeted treatment should have fewer side effects than treatments that block all VEGF. Dr. Gu’s team is incredibly excited to be part of the development of these novel treatments, and cannot sufficiently express their gratitude to those willing to support this work.