Txnip在糖尿病视网膜病变中自噬失调和炎性体激活中的作用:一个新的视角。

JOJ ophthalmology Pub Date : 2017-01-01 Epub Date: 2017-09-15 DOI:10.19080/jojo.2017.04.555643
Lalit P Singh, Takhellambam S Devi, Thangal Yumnamcha
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引用次数: 42

摘要

线粒体在健康和疾病中负责生物能量学、代谢和凋亡信号。视网膜作为中枢神经系统的一部分,需要消耗大量的葡萄糖和氧气,通过线粒体氧化磷酸化产生ATP,实现其光导和视觉功能。在ATP生成过程中,电子从线粒体电子传递链中泄漏,被分子氧捕获产生活性氧(ROS)。这些mtROS破坏线粒体蛋白、mtDNA和膜脂,并将它们释放到细胞质中。线粒体成分被细胞质模式识别受体(如nod样受体、NLRP3炎症小体)识别为危险相关分子模式(DAMPS)。它们将前caspase-1加工成活性caspase-1,将促炎IL-1β裂解为成熟的IL-1β,导致炎症和细胞热亡。为了对抗mtROS和炎性小体对视网膜完全分化细胞的破坏作用,通过溶酶体降解的双膜自噬过程(称为线粒体自噬)去除受损和功能失调的线粒体对于线粒体稳态和细胞存活至关重要。然而,在包括糖尿病视网膜病变(DR)在内的慢性疾病中,存在线粒体自噬失调和NLRP3炎性体激活,导致细胞过早死亡和疾病进展。近年来,糖尿病强烈诱导硫氧还蛋白相互作用蛋白TXNIP抑制硫氧还蛋白的抗氧化功能,与DR的线粒体功能障碍、线粒体自噬失调和NLRP3炎性体激活有关,因此,沉默TXNIP或药物抑制可能使线粒体自噬通量和NLRP3炎性体激活正常,从而预防或减缓DR的进展。
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The Role of Txnip in Mitophagy Dysregulation and Inflammasome Activation in Diabetic Retinopathy: A New Perspective.

Mitochondria are responsible for bioenergetics, metabolism and apoptosis signals in health and disease. The retina being a part of the central nervous system consumes large amounts of glucose and oxygen to generate ATP via the mitochondrial oxidative phosphorylation for its phototransduction and visual function. During ATP generation, electrons leak from the mitochondrial electron transport chain, which is captured by molecular oxygen to produce reactive oxygen species (ROS). These mtROS damage mitochondrial proteins, mtDNA, and membrane lipids and release them in the cytosol. Mitochondrial components are recognized as danger-associated molecular patterns (DAMPS) by cytosolic pattern recognition receptors such as NOD-like receptors, NLRP3 inflammasomes. They process pro-caspase-1 to active caspase-1, which cleaves pro-inflammatory IL-1β o mature IL-1β causing inflammation and cell death by pyroptosis. To counter the damaging action of mtROS and inflammasomes in fully differentiated cells in the retina, the removal of the damaged and dysfunctional mitochondria by a double-membrane autophagic process via lysosomal degradation called mitophagy is critical for mitochondrial homeostasis and cell survival. Nonetheless, under chronic diseases including diabetic retinopathy (DR), mitophagy dysregulation and NLRP3 inflammasome activation exist, which cause premature cell death and disease progression. Recently, the thioredoxin-interacting protein TXNIP, which is strongly induced by diabetes and inhibits anti-oxidant function of thioredoxin, has been implicated in mitochondrial dysfunction, mitophagic dysregulation and NLRP3 inflammasome activation in DR. Therefore, TXNIP silencing or pharmacological inhibition may normalize mitophagic flux and NLRP3 inflammasome activation, which will prevent or slow down the progression of DR.

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