Article
Author(s):
Researchers at the Smurfit Institute of Genetics, in collaboration with the biotechnology company Exhaura Ltd., have shown that a gene therapy-based approach can decrease intraocular pressure in pre-clinical models of glaucoma.
Scientists at Trinity College Dublin announced a significant development toward a new therapeutic treatment of glaucoma.
According to a Trinity College Dublin news release, approximately 80 million people globally are affected by glaucoma, with a projected increase to more than 110 million by 2040. While topical eye-drops are critical in preventing disease progression, up to 10% of patients become treatment resistant, putting them at risk of permanent vision loss.
The main clinical risk factor for glaucoma is elevated intraocular pressure; dangerous increases in pressure in the globe of the eye can lead to serious damage to the optic nerve head, which transmits light signals to the brain to allow us to see. This elevated pressure is caused by a build-up of unwanted proteins causing a blockage in drainage channels that, over time, can cause fluid to accumulate and pressure to increase.
The college noted in its release the team at the Smurfit Institute of Genetics, in collaboration with the biotechnology company Exhaura Ltd, have shown that a gene therapy-based approach can decrease intraocular pressure in pre-clinical models of glaucoma.
A single injection of a viral vector – essentially a virus the scientists have hijacked with the purpose of using it to deliver specific instructions to cells in the body – can increase the flow of aqueous fluid from the front of the eye and thereby decrease pressure in the eye. The key instructions are for cells to produce an enzyme matrix (metalloproteinase-3, or MMP-3) that helps kick this process into gear.
“This exciting project allowed us to bridge the gap between academia and industry and work very closely with a gene therapy company to develop a cutting edge therapy that we believe holds immense promise for patients in the future,” Matthew Campbell, PhD, professor in Genetics at Trinity, said in the news release.
Moreover, the work used multiple models of disease as well as making use of donor human eyes to screen the therapeutic efficacy of the gene therapy approach. This makes the impressive results all the more promising.
Gene therapies have seen a dramatic advance in recent years, with multiple drugs now approved by both the FDA and EMA. However, to date, all of the approved gene therapies are for the treatment of rare or ultra-rare conditions. As our understanding of the underlying mechanism of common diseases is now becoming more evolved, the concept of using gene therapy for common diseases is now possible.
Jeffrey O’Callaghan, PhD, a postdoctoral research fellow at Trinity and first author of the study, highlighted the work of the research team in the news release.
“Our novel approach to treating glaucoma using gene therapy is the culmination of over seven years of research,’ he said in the news release. “We are now hopeful that this therapy will pave the way to the development of treatments for other forms of blinding eye diseases.”
According to the news release, a multidisciplinary team of geneticists, ophthalmologists and translational biologists undertook the study. The close collaboration with Exhaura Ltd also allowed the team to direct all experimental outputs towards the translation of the findings to a regulatory focused clinical program.
The research, published this week in the international journal, Science Advances,1 was supported by the Science Foundation Ireland SFI-EYE-D program, the European Research Council (ERC), Enterprise Ireland and Exhaura Ltd.
Study validates long-term efficacy of MicroPulse TLT for glaucoma management