Circadian Clock, Glucocorticoids and NF-κB Signaling in Neuroinflammation- Implicating Glucocorticoid Induced Leucine Zipper as a Molecular Link.

IF 3.9 4区 医学 Q2 NEUROSCIENCES ASN NEURO Pub Date : 2022-01-01 DOI:10.1177/17590914221120190
Mythily Srinivasan, Chandler Walker
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引用次数: 5

Abstract

Inflammation including neuroinflammation is considered a protective response and is directed to repair, regenerate, and restore damaged tissues in the central nervous system. Persistent inflammation due to chronic stress, age related accrual of free radicals, subclinical infections or other factors lead to reduced survival and increased neuronal death. Circadian abnormalities secondary to altered sleep/wake cycles is one of the earliest signs of neurodegenerative diseases. Brain specific or global deficiency of core circadian trans-activator brain and muscle ARNT (Arylhydrocarbon Receptor Nuclear Translocator)-like protein 1 (BMAL1) or that of the transrepressor REV-ERBα, impaired neural function and cognitive performance in rodents. Consistently, transcripts of inflammatory cytokines and host immune responses have been shown to exhibit diurnal variation, in parallel with the disruption of the circadian rhythm. Glucocorticoids that exhibit both a circadian rhythm similar to that of the core clock transactivator BMAL1 and tissue specific ultradian rhythm are critical in the control of neuroinflammation and re-establishment of homeostasis. It is widely accepted that the glucocorticoids suppress nuclear factor-kappa B (NF-κB) mediated transactivation and suppress inflammation. Recent mechanistic elucidations suggest that the core clock components also modulate NF-κB mediated transactivation in the brain and peripheral tissues. In this review we discuss evidence for interactions between the circadian clock components, glucocorticoids and NF-κB signaling responses in the brain and propose glucocorticoid induced leucine zipper (GILZ) encoded by Tsc22d3, as a molecular link that connect all three pathways in the maintenance of CNS homeostasis as well as in the pathogenesis of neuroinflammation-neurodegeneration.

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生物钟、糖皮质激素和NF-κ b信号在神经炎症中的作用——糖皮质激素诱导亮氨酸拉链的分子联系。
包括神经炎症在内的炎症被认为是一种保护性反应,旨在修复、再生和恢复中枢神经系统中受损的组织。慢性应激、年龄相关自由基积累、亚临床感染或其他因素引起的持续炎症导致存活减少和神经元死亡增加。继发于睡眠/觉醒周期改变的昼夜节律异常是神经退行性疾病的最早征兆之一。核心昼夜节律反式激活剂脑和肌肉ARNT(芳烃受体核转运器)样蛋白1 (BMAL1)或转抑制因子rev - erba α的脑特异性或全脑性缺乏会损害啮齿动物的神经功能和认知能力。一致地,炎症细胞因子和宿主免疫反应的转录本显示出昼夜变化,与昼夜节律的破坏并行。糖皮质激素表现出与核心时钟激活因子BMAL1相似的昼夜节律和组织特异性超昼夜节律,在控制神经炎症和重建体内平衡中至关重要。糖皮质激素抑制核因子κB (NF-κB)介导的反活化,抑制炎症反应,已被广泛接受。最近的机制阐明表明,核心时钟组件也调节NF-κB介导的脑和外周组织的交易激活。在这篇综述中,我们讨论了大脑中昼夜节律钟成分、糖皮质激素和NF-κB信号反应之间相互作用的证据,并提出糖皮质激素诱导的亮氨酸拉链(GILZ)是由Tsc22d3编码的,是连接这三条通路的分子纽带,在维持中枢神经系统稳态以及神经炎症-神经变性的发病机制中起作用。
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来源期刊
ASN NEURO
ASN NEURO NEUROSCIENCES-
CiteScore
7.70
自引率
4.30%
发文量
35
审稿时长
>12 weeks
期刊介绍: ASN NEURO is an open access, peer-reviewed journal uniquely positioned to provide investigators with the most recent advances across the breadth of the cellular and molecular neurosciences. The official journal of the American Society for Neurochemistry, ASN NEURO is dedicated to the promotion, support, and facilitation of communication among cellular and molecular neuroscientists of all specializations.
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