Journal of Diabetes Investigation (Jan 2019)
(Pro)renin receptor: Involvement in diabetic retinopathy and development of molecular targeted therapy
Abstract
Abstract The renin–angiotensin system (RAS), a crucial regulator of systemic blood pressure (circulatory RAS), plays distinct roles in pathological angiogenesis and inflammation in various organs (tissue RAS), such as diabetic microvascular complications. Using ocular clinical samples and animal disease models, we elucidated molecular mechanisms in which tissue RAS excites the expression of vascular endothelial growth factor (VEGF)‐A responsible for retinal inflammation and angiogenesis, the two major pathological events in diabetic retinopathy (DR). Furthermore, we showed the involvement of (pro)renin receptor [(P)RR] in retinal RAS activation and its concurrent intracellular signal transduction (e.g., extracellular signal‐regulated kinase); namely, the (P)RR‐induced dual pathogenic bioactivity referred to as the receptor‐associated prorenin system. Indeed, neovascular endothelial cells in the fibrovascular tissue collected from eyes with proliferative DR were immunoreactive for the receptor‐associated prorenin system components including prorenin, (P)RR, phosphorylated extracellular signal‐regulated kinase and VEGF‐A. Protein levels of soluble (P)RR increased with its positive correlations with prorenin, renin enzymatic activity and VEGF in the vitreous of proliferative DR eyes, suggesting a close link between (P)RR and VEGF‐A‐driven angiogenic activity. Furthermore, we revealed an unsuspected, PAPS‐independent role of (P)RR in glucose‐induced oxidative stress. Recently, we developed an innovative single‐strand ribonucleic acid interference molecule selectively targeting human and mouse (P)RR, and confirmed its efficacy in suppressing diabetes‐induced retinal inflammation in mice. Our data using clinical samples and animal models suggested the significant implication of (P)RR in the pathogenesis of DR, and the potential usefulness of the ribonucleic acid interference molecule as a therapeutic agent to attenuate ocular inflammation and angiogenesis.
Keywords