With 329 genes known to be involved in inherited retinal degenerations (IRDs), focus has shifted to generic targets for therapeutics, targets that could provide benefit irrespective of the underlying genetic condition. As one of the most energy-demanding tissues, the retina is acutely sensitive to dysfunction of its energy metabolism. Recent discoveries have shed light on the complex interconnectivity and interdependence of retinal cells on their choice metabolic pathways, highlighting a number of potential targets that could benefit cells in a mutation-independent manner. Some of the latest research on retinal metabolism and mitophagy in photoreceptors and retinal pigment epithelium is discussed, as is how these insights could potentially be used in the design of new therapies.
Keywords: AMD; Aerobic glycolysis; Bioenergetics; Gene therapy; LHON; Metabolism; Mitophagy; Oxidative phosphorylation.