Endothelial to mesenchymal cell transition in diabetic retinopathy: targets and therapeutics

Nijim, Wasef; Moustafa, Mohamed; Humble, Julia; Al-Shabrawey, Mohamed

doi:10.3389/fopht.2023.1230581

Front. Ophthalmol.

2023

DOI: 10.3389/fopht.2023.1230581

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Endothelial to mesenchymal cell transition in diabetic retinopathy: targets and therapeutics

Wasef Nijim,

Mohamed Moustafa,

Julia Humble

et al.

Abstract: Diabetic retinopathy (DR) is a result of neurovacular insults from hyperglycemia in diabetes mellitus (DM), and it is one of the top causes of vision loss throughout the modern world. This review article explores the role endothelial to mesenchymal transition (EndMT) has on the pathogenesis of DR. EndMT contributes to the disruption of the blood-retinal barrier, vascular leakage, neovascularization, and fibrosis observed in DR. Risk factors and biomarkers associated with DR severity are discussed, highlighting… Show more

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Molecular and Cellular Mechanisms Involved in the Pathophysiology of Retinal Vascular Disease—Interplay Between Inflammation and Oxidative Stress

Srejovic,

Muric,

Jakovljevic

et al. 2024

IJMS

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Retinal vascular diseases encompass several retinal disorders, including diabetic retinopathy, retinopathy of prematurity, age-related macular degeneration, and retinal vascular occlusion; these disorders are classified as similar groups of disorders due to impaired retinal vascularization. The aim of this review is to address the main signaling pathways involved in the pathogenesis of retinal vascular diseases and to identify crucial molecules and the importance of their interactions. Vascular endothelial growth factor (VEGF) is recognized as a crucial and central molecule in abnormal neovascularization and a key phenomenon in retinal vascular occlusion; thus, anti-VEGF therapy is now the most successful form of treatment for these disorders. Interaction between angiopoietin 2 and the Tie2 receptor results in aberrant Tie2 signaling, resulting in loss of pericytes, neovascularization, and inflammation. Notch signaling and hypoxia-inducible factors in ischemic conditions induce pathological neovascularization and disruption of the blood‒retina barrier. An increase in the pro-inflammatory cytokines—TNF-α, IL-1β, and IL-6—and activation of microglia create a persistent inflammatory milieu that promotes breakage of the blood‒retinal barrier and neovascularization. Toll-like receptor signaling and nuclear factor-kappa B are important factors in the dysregulation of the immune response in retinal vascular diseases. Increased production of reactive oxygen species and oxidative damage follow inflammation and together create a vicious cycle because each factor amplifies the other. Understanding the complex interplay among various signaling pathways, signaling cascades, and molecules enables the development of new and more successful therapeutic options.

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Molecular and Cellular Mechanisms Involved in the Pathophysiology of Retinal Vascular Disease—Interplay Between Inflammation and Oxidative Stress

Srejovic,

Muric,

Jakovljevic

et al. 2024

IJMS

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Advancements in diabetic retinopathy: Insights and future directions

Cheng,

Hao,

Cheng

2025

World J Methodol

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This editorial discusses recent advancements and ongoing challenges in diabetic retinopathy, as reviewed by Morya et al in their comprehensive analysis. In their review, Morya et al discussed the pathophysiology of diabetic retinopathy and explored novel treatment modalities. This editorial highlights the importance of these advancements and emphasizes the need for continued research and innovation for the enhanced management of diabetic retinopathy. It also reflects upon the implications of the authors’ review findings for clinical practice and future research directions, underscoring the potential of emerging therapies for improving patient outcomes and providing a deeper understanding of disease mechanisms.

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Endothelial to mesenchymal cell transition in diabetic retinopathy: targets and therapeutics

Cited by 2 publications

References 100 publications

Molecular and Cellular Mechanisms Involved in the Pathophysiology of Retinal Vascular Disease—Interplay Between Inflammation and Oxidative Stress

Molecular and Cellular Mechanisms Involved in the Pathophysiology of Retinal Vascular Disease—Interplay Between Inflammation and Oxidative Stress

Advancements in diabetic retinopathy: Insights and future directions

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