Here's how stress affects your eyes
Researchers now have a new tool to estimate the impact of stress and treatment on the ageing status of retinal tissue. Image: Unsplash/Craig Adderley
- Ageing is a universal process that affects all cells in an organism.
- In the eye, it is a major risk factor for a group of neuropathies called glaucoma.
- Researchers now have a new tool to estimate the impact of stress and treatment on the ageing status of retinal tissue.
- This is enabling them to understand how stress can induce changes in the eye similar to natural ageing and find potential targets for therapeutics.
New research with mice suggests aging is an important component of retinal ganglion cell death in glaucoma.
The researchers also report that novel pathways can be targeted when designing new treatments for glaucoma patients.
The study appears in Aging Cell.
The research describes the transcriptional and epigenetic changes happening in aging retina. The team shows how stress, such as intraocular pressure (IOP) elevation in the eye, causes retinal tissue to undergo epigenetic and transcriptional changes similar to natural aging. They also show how in young retinal tissue repetitive stress induces features of accelerated aging including the accelerated epigenetic age.
Aging is a universal process that affects all cells in an organism. In the eye, it is a major risk factor for a group of neuropathies called glaucoma. Because of the increase in aging populations worldwide, current estimates show that the number of people with glaucoma (aged 40-80) will increase to over 110 million in 2040.
“Our work emphasizes the importance of early diagnosis and prevention as well as age-specific management of age-related diseases, including glaucoma,” says Dorota Skowronska-Krawczyk, assistant professor in the physiology and biophysics and ophthalmology departments and the faculty of the Center for Translational Vision Research at the University of California, Irvine School of Medicine.
“The epigenetic changes we observed suggest that changes on the chromatin level are acquired in an accumulative way, following several instances of stress. This provides us with a window of opportunity for the prevention of vision loss, if and when the disease is recognized early.”
In humans, IOP has a circadian rhythm. In healthy individuals, it oscillates typically in the 12-21 mmHg range and tends to be highest in approximately two thirds of individuals during the nocturnal period. Due to IOP fluctuations, a single IOP measurement is often insufficient to characterize the real pathology and risk of disease progression in glaucoma patients. Long-term IOP fluctuation has been reported to be a strong predictor for glaucoma progression.
This new study suggests that the cumulative impact of the fluctuations of IOP is directly responsible for the aging of the tissue.
“Our work shows that even moderate hydrostatic IOP elevation results in retinal ganglion cell loss and corresponding visual defects when performed on aged animals,” says Skowronska-Krawczyk.
“We are continuing to work to understand the mechanism of accumulative changes in aging in order to find potential targets for therapeutics. We are also testing different approaches to prevent the accelerated aging process resulting from stress.”
Researchers now have a new tool to estimate the impact of stress and treatment on the aging status of retinal tissue, which has made these new discoveries possible.
In collaboration with the Clock Foundation and Steve Horvath, PhD, from Altos Labs, who pioneered the development of epigenetic clocks that can measure age based on methylation changes in the DNA of tissues, it was possible for researchers to show that repetitive, mild IOP elevation can accelerate epigenetic age of the tissues.
“In addition to measuring vision decline and some structural changes due to stress and potential treatment, we can now measure the epigenetic age of retinal tissue and use it to find the optimal strategy to prevent vision loss in aging,” says Skowronska-Krawczyk.
Funding came, in part, from the National Institutes of Health, the Foundation for Polish Science, and the European Union under the European Regional Development Fund. The authors would like to acknowledge support of the Research to Prevent Blindness Foundation for Department of Ophthalmology at UCI.
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