NRF2 and Age-Dependent RPE Degeneration

Abstract

Retinal pigment epithelium (RPE) is a single layer of epithelial cells lined between the neurosensory retina and choriocapillaris. It is part of the blood-retinal barrier and is a central component of the visual phototransduction pathway. RPE cells regenerate 11-cisretinal by RPE65 isomerase and its related enzymes and chaperones (Moiseyev et al., 2006; Xue et al., 2004). They are professional phagocytes and are responsible for the clearance of daily shed photoreceptor outer segments (POS) (Young, 1967; Young & Bok, 1969). The multi-step process of phagocytosis includes receptor-mediated binding of POS to the RPE (Finnemann et al., 1997), internalization (Feng et al., 2002; Finnemann & Silverstein, 2001), transport to lysosome and degradation. The importance of RPE phagocytosis has been clearly illustrated by the Royal College of Surgeons (RCS) rats, which carry a mutation in Mertk gene (D'Cruz et al., 2000). MERTK is a membrane-associated receptor tyrosine kinase and is activated upon binding of POS to the RPE (Feng et al. 2002). In RCS rats, loss-offunction mutation of Mertk causes defects in phagocytosis and consequently these animals develop inherited retinal dystrophy and photoreceptor apoptosis (Tso et al., 1994). In addition to their roles in the visual cycle, RPE cells provide vital support for the structure and function of the outer retina. They transport ions, water and nutrients between choroidal blood supply and the retina, and synthesize melanin which absorbs light and shields the retina. RPE-produced growth factors, such as vascular endothelial growth factor (VEGF), are indispensable for the choroidal vasculature (Saint-Geniez et al., 2009).