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Compounds Of Major Enzyme Pathway May Prevent Blindness In Age Related Macular Degeneration

by Dr. Lakshmi Venkataraman on August 22, 2017 at 6:07 PM
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Highlights:

Specific bioactive mediators of the cytochrome-P450 pathway could influence angiogenesis and prevent associated blindness in age-related macular degeneration according to a recent study conducted by Massachusetts Eye and Ear researchers.


The findings of the study appear online in the Proceedings of the National Academy of Sciences in August 2017.

‘Targeting the cytochrome-P450 pathway may have therapeutic implications for the treatment of age-related macular degeneration (AMD) as well as other disorders involving abnormal new vessel growth.’

Targeting Immune Cells In AMD Treatment - An Option Largely Overlooked

Age-related macular degeneration affects nearly 11 million Americans and nearly 200 million persons globally with the figures expected to double by 2020. The risk of developing AMD is nearly 30 percent after 75 years of age.

AMD has been the focus of several research projects but the role of immune cells in the regulation of angiogenesis in AMD and other disorders has largely been ignored in earlier studies.

The current team embarked on this study to determine the possible role of immune cells in angiogenesis and to look for newer and possibly safer and more cost-effective therapeutic options in managing AMD.

Role Of Immune Cells In Angiogenesis In AMD - The Study

The team conducted their study on preclinical animal models. The notable findings of their study were the following

The findings of the study seem to suggest that targeting the cytochrome-P450 pathway could have important therapeutic implications in the treatment of AMD and other inflammatory conditions characterized by angiogenesis (including cancer) by increasing the expression of these lipid mediators.

"Given the high prevalence and progressive nature of neovascular eye disease, the ability to stabilize bioactive lipids that mitigate or halt disease is of great and increasingly therapeutic significance," said corresponding author Kip Connor, Ph.D., a vision scientist at Mass. Eye and Ear and Assistant Professor of Ophthalmology at Harvard Medical School. "It is our hope that emerging technologies and future studies will expand on our work, and ultimately lead to safe, targeted, and cost-effective therapies that markedly improve visual outcomes and quality of life for patients suffering from these debilitating eye diseases."

Mechanism of Action of EEQ and EDP - More Effective in AMD?

The ω-3 long-chain polyunsaturated fatty acids are a class of dietary lipids found abundantly in the central nervous system and the retina. In general the ω-3s have anti-inflammatory properties and particularly, 17,18- epoxyeicosatetraenoic acid and 19,20- epoxydocosapentaenoic acid, metabolites of the CYP pathway were shown by liquid chromatography-tandem MS and found to protect against inflammation.

The current standard of care for persons with wet AMD is based on targeting VEGF, an agent that promotes angiogenesis. Although VEGF inhibitors reduce angiogenesis and vascular permeability, there is no disease resolution or complete vessel regression.

Studies in mouse models of wet AMD have shown that Cytochrome P-450 derived EEQ and EDP promote resolution of disease, as well as aid in vascular repair and regression.

Age Related Macular Degeneration - In Brief

AMD is a leading cause of blindness in the elderly. In the advanced stages of the disease, termed �wet' or neovascular AMD, there is growth of abnormal new blood vessels on the surface of the retina (the light sensitive structure at the back of the eye responsible for vision).

The abnormal angiogenesis occurs in around 10-15 percent of AMD patients, and progresses rapidly ultimately leading to blindness.

Several treatments are available to treat AMD including angiogenesis inhibitors.

Scope Of Current Study

The current study has identified a probable immune/inflammatory mechanism of angiogenesis prevention that can be further explored in future research with potential therapeutic implications of this debilitating condition.

"Although we do not fully understand how and why AMD develops, identifying additional mechanisms that regulate abnormal blood vessel growth in the eye beyond what we currently know could open up a range of possibilities for new research and treatments for AMD," Dr. Connor said.

Reference:

  1. Cytochrome P450-generated metabolites derived from-3 fatty acids attenuate neovascularization - (https:www.ncbi.nlm.nih.gov/pmc/articles/PMC4084420/)

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