上皮-间质转化对人视网膜色素上皮细胞稳态的干预研究进展。

Pub Date : 2022-12-01 Epub Date: 2022-11-15 DOI:10.1080/01478885.2022.2137665
Brijesh Gelat, Pooja Rathaur, Pooja Malaviya, Binita Patel, Krupali Trivedi, Kaid Johar, Rahul Gelat
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引用次数: 2

摘要

视网膜色素上皮(RPE)对正常视力至关重要,可促进光感受器和布鲁氏膜的健康和活性。年龄相关性黄斑变性(AMD)、糖尿病性视网膜病变(DR)和增生性玻璃体视网膜病变(PVR)是导致视力丧失的视网膜病变的例子。上皮-间充质转化(epithelial -mesenchymal transition, EMT)是由于微环境缺陷导致上皮细胞向间充质细胞转化的过程,它与上述眼病有关。细胞分化、自噬、生长因子(GFs)、血视网膜屏障(BRB)等复杂的信号通路都有助于形成正确的形态,有害化合物破坏这些通路会影响RPE功能。另一方面,RPE中EMT的诱导因子和抑制因子是未知的。本文综述了实验研究,认为某些调节剂如葡萄糖胺(Glc-N)和缓激肽(BK)抑制tgf - β信号通路,其他变量如氧化应激触发EMT,这在正常的RPE稳态中没有发现。因此,寻找分子靶点和治疗方法来预防和恢复RPE功能,以及了解EMT调节因子如何影响RPE变性是至关重要的。
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The intervention of epithelial-mesenchymal transition in homeostasis of human retinal pigment epithelial cells: a review.

The health and activity of photoreceptors and Bruch's membrane are promoted by the retinal pigment epithelium (RPE), which is essential for normal vision. Age-related macular degeneration (AMD), diabetic retinopathy (DR), and proliferative vitreoretinopathy (PVR) are examples of retinopathies that result in vision loss. Epithelial-mesenchymal transition (EMT) is a process in which epithelial cells transform into mesenchymal cells as a result of a faulty microenvironment, and it is associated with the oculopathies stated above. Cell differentiation, autophagy, growth factors (GFs), the blood-retinal barrier (BRB), and other complicated signaling pathways all contribute to proper morphology, and their disruption by harmful compounds has an impact on RPE function. The inducer and suppressor of EMT in RPE, on the other hand, are unknown. The current article reviews the experimental research investigations, suggested that certain modulators like glucosamine (Glc-N) and bradykinin (BK) suppress the TGFβ signaling pathway and that other variables like oxidative stress triggered EMT, which is not found in normal RPE homeostasis. Finding molecular targets and treatments to prevent and restore RPE function, as well as understanding how EMT regulators affect RPE degeneration, are therefore crucial.

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