Metabolic Shift and Hyperosmolarity Underlie Age-Related Macular Degeneration
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Date
2024-09-20
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
MDPI
Series Info
MDPI : life; 9/2024
Scientific Journal Rankings
Abstract
Age-related macular degeneration (AMD) is both a poorly understood and devastating
disease. Here, we analyze the physico-chemical forces at stake, including osmolarity, redox shift,
and pressure due to inflammation. Hyperosmolarity plays a key role in diseases of the anterior
segment of the eye such as glaucoma, cataracts or dry eyes, and corneal ulceration. However,
its role in macular degeneration has been largely overlooked. Hyperosmolarity is responsible for
metabolic shifts such as aerobic glycolysis which increases lactate secretion by Muller cells. Increased
osmolarity will also cause neoangiogenesis and cell death. Because of its unique energetic demands,
the macula is very sensitive to metabolic shifts. As a proof of concept, subretinal injection of drugs
increasing hyperosmolarity such as polyethylene glycol causes neoangiogenesis and drusen-like
structures in rodents. The link between AMD and hyperosmolarity is reinforced by the fact that
treatments aiming to restore mitochondrial activity, such as lipoic acid and/or methylene blue, have
been experimentally shown to be effective. We suggest that metabolic shift, inflammation, and
hyperosmolarity are hallmarks in the pathogenesis and treatment of AMD.
Description
Keywords
macular degeneration, osmolarity, apoptosis, mitochondria, lipoic acid, methylene blue