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The TSPO-NOX1 axis controls phagocyte-triggered pathological angiogenesis in the eye

Anne Wolf, Marc Herb, Michael Schramm, Thomas Langmann

2020Nature Communications77 citationsDOIOpen Access PDF

Abstract

Abstract Aberrant immune responses including reactive phagocytes are implicated in the etiology of age-related macular degeneration (AMD), a major cause of blindness in the elderly. The translocator protein (18 kDa) (TSPO) is described as a biomarker for reactive gliosis, but its biological functions in retinal diseases remain elusive. Here, we report that tamoxifen-induced conditional deletion of TSPO in resident microglia using Cx3cr1 CreERT2 :TSPO fl/fl mice or targeting the protein with the synthetic ligand XBD173 prevents reactivity of phagocytes in the laser-induced mouse model of neovascular AMD. Concomitantly, the subsequent neoangiogenesis and vascular leakage are prevented by TSPO knockout or XBD173 treatment. Using different NADPH oxidase-deficient mice, we show that TSPO is a key regulator of NOX1-dependent neurotoxic ROS production in the retina. These data define a distinct role for TSPO in retinal phagocyte reactivity and highlight the protein as a drug target for immunomodulatory and antioxidant therapies for AMD.

Topics & Concepts

Translocator proteinMicrogliaRetinalMacular degenerationChoroidal neovascularizationNOX1Retinal degenerationRetinaPhagocytePhagocytosisBiologyApocyninNADPH oxidaseCancer researchImmunologyInflammationMedicineNeuroscienceCell biologyReactive oxygen speciesBiochemistryOphthalmologyNeuroinflammation and Neurodegeneration MechanismsRetinal Diseases and TreatmentsNeutrophil, Myeloperoxidase and Oxidative Mechanisms
The TSPO-NOX1 axis controls phagocyte-triggered pathological angiogenesis in the eye | Litcius