The impact of misaligned daily light cycles on the development of diabetic retinopathy

Circadian rhythms - split with day and night with a clock over a human brain

Dr Eleni Beli, Queen’s University Belfast - £25,000

Circadian rhythms affect many processes in the eye. This research investigates the link between day length and the development of diabetic retinopathy (DR) by exposing mice to day lengths made artificially either longer or shorter than 24 hours.

What is the problem?

Diabetic retinopathy (DR) is a disease frequently seen in diabetic patients where the blood vessels of the retina become leaky, ultimately collapse and grow incorrectly and uncontrollably until they cause sight loss. Current therapies only target late stages of the disease and don’t work for all patients.

Modern lifestyles with longer artificial light exposure, longer food availability and night shift patterns challenge our circadian rhythm - the internal body clock that tells us when it’s time to wake or sleep. This can be particularly difficult for those with diabetes because it affects the regulation of the circadian rhythm.

What are they doing?

Our circadian rhythm has long been known to affect the eye and how rapidly many diseases progress. This project will look at how diabetic retinopathy develops when daylight hours are changed. Mice will be exposed to 22.5-hour or 27-hour day/night cycles, and compared to a control group on a 24-hour cycle. The circadian rhythm also controls how treatments such as anti-VEGF and corticosteroids are absorbed by the body.

How can this help?

Data from this study on how the retina’s clock adjusts to new light schedules will be invaluable, not only to DR studies, but also to teams making more effective treatments for other macular conditions. It will also improve the therapies that we already use, such as anti-VEGF and corticosteroids, which are both influenced by circadian rhythms. The efficacy of these drugs will be improved by understanding the biochemistry behind them.

Professor Luminita Paraoan and her team, University of Liverpool

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