Yanhong Wei scite author profile

Aims/hypothesis Although much is known about the pathophysiological processes contributing to diabetic retinopathy (DR), the role of protective pathways has received less attention. The transcription factor nuclear factor erythroid-2-related factor 2 (also known as NFE2L2 or NRF2) is an important regulator of oxidative stress and also has anti-inflammatory effects. The objective of this study was to explore the potential role of NRF2 as a protective mechanism in DR. Methods Retinal expression of NRF2 was investigated in human donor and mouse eyes by immunohistochemistry. The effect of NRF2 modulation on oxidative stress was studied in the human Müller cell line MIO-M1. Non-diabetic and streptozotocin-induced diabetic wild-type and Nrf2 knockout mice were evaluated for multiple DR endpoints. Results NRF2 was expressed prominently in Müller glial cells and astrocytes in both human and mouse retinas. In cultured MIO-M1 cells, NRF2 inhibition significantly decreased antioxidant gene expression and exacerbated tert-butyl hydroperoxide- and hydrogen peroxide-induced oxidative stress. NRF2 activation strongly increased NRF2 target gene expression and suppressed oxidant-induced reactive oxygen species. Diabetic mice exhibited retinal NRF2 activation, indicated by nuclear translocation. Superoxide levels were significantly increased by diabetes in Nrf2 knockout mice as compared with wild-type mice. Diabetic Nrf2 knockout mice exhibited a reduction in retinal glutathione and an increase in TNF-α protein compared with wild-type mice. Nrf2 knockout mice exhibited early onset of blood–retina barrier dysfunction and exacerbation of neuronal dysfunction in diabetes. Conclusions/interpretation These results indicate that NRF2 is an important protective mechanism regulating the progression of DR and suggest enhancement of the NRF2 pathway as a potential therapeutic strategy.

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Nrf2 has a protective role against neuronal and capillary degeneration in retinal ischemia–reperfusion injury

Wei

Gong

Yoshida

et al. 2011

Free Radical Biology and Medicine

130

141

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Retinal ischemia-reperfusion (I/R) involves extensive increase in reactive oxygen species as well as pro-inflammatory changes that result in significant histopathologic damage, including neuronal and vascular degeneration. Nrf2 has a well-known cytoprotective role in many tissues, but its protective function in the retina is unclear. We investigated the possible role of Nrf2 as a protective mechanism in retinal ischemia-reperfusion injury using Nrf2 −/− mice. I/R resulted in an increase in retinal levels of superoxide and pro-inflammatory mediators, as well as leukocyte infiltration of the retina and vitreous, in Nrf2 +/+ mice. These effects were greatly accentuated in Nrf2 −/− mice. With regard to histopathologic damage, Nrf2 −/− mice exhibited loss of cells in the ganglion cell layer and markedly accentuated retinal capillary degeneration, as compared to wild-type. Treatment with the Nrf2 activator CDDO-Me increased antioxidant gene expression and normalized I-R induced superoxide in the retina in wild-type but not Nrf2 −/− mice. CDDO-Me treatment abrogated retinal capillary degeneration induced by I/R in wild-type, but not Nrf2 −/− mice. These studies indicate that Nrf2 is an important cytoprotective mechanism in the retina in response to ischemia-reperfusion injury and suggest that pharmacologic induction of Nrf2 could be a new therapeutic strategy for retinal ischemia-reperfusion and other retinal diseases.

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Yanhong Wei

TNFα Is Required for Late BRB Breakdown in Diabetic Retinopathy, and Its Inhibition Prevents Leukostasis and Protects Vessels and Neurons from Apoptosis

NRF2 plays a protective role in diabetic retinopathy in mice

Nrf2 has a protective role against neuronal and capillary degeneration in retinal ischemia–reperfusion injury

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