The researchers have established that the protein ‘neuroserpin’ is critical to a healthy retina, regulating other enzymes and maintaining a natural protective environment in the eye.
Neuroserpin belongs to a family of proteins ‘serpins’ that are particularly sensitive to oxidation through environmental factors.
“Over a long period of time, increased enzyme activity gradually digests the eye tissue and promotes cell death causing the adverse effects associated with glaucoma, a major blinding disorder among the aged worldwide,” said lead author Dr Vivek Gupta from the Faculty of Medicine and Health Sciences at Macquarie University.
Once neuroserpin is deactivated due to ageing, disease or environmental factors, it is no longer able to protect the eye and the retina and optic nerve is compromised, leading to irreversible damage to the eye.
“Ophthalmologists and vision scientists have always wondered what damages the optic nerve in the back of the eyes, which is widely observed in glaucoma. The breakthrough findings of this study help us understand the disease mechanism and answer a key question that has eluded scientists for several years,” said co-author Dr Mehdi Mirzaei.
“This long-term collaborative study has opened up a completely new line of investigation in glaucoma research that will lead to new treatment avenues for the disease,” said Dr Gupta.
Researchers will use these findings to explore genetic engineering techniques to generate ‘modified neuroserpin’ protein that is resistant to oxidation, and make the protein sustainably available in the eye to inhibit the damaging enzymes and protect eye sight.
Future research will also highlight if antioxidants can play an important role in protecting the eyes in glaucoma.
About Macquarie University, Australia
Established in Sydney in 1964, It was created during a time of social transformation to be a different kind of university: it was, and will always be, a bold experiment in higher education.