Hydroxychloroquine attenuates neuroinflammation following traumatic brain injury by regulating the TLR4/NF-κB signaling pathway

Hu, Jian; Wang, Xue; Chen, Xiongjian; Fang, Yani; Chen, Kun; Peng, Wenshuo; Wang, Zhengyi; Guo, Kaiming; Tan, Xiaojie; Liang, Fei; Lin, Li; Xiong, Ye

doi:10.1186/s12974-022-02430-0

Cited by 17 publications

(11 citation statements)

References 70 publications

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“…This is one of the hallmarks of neuroin ammation --recruitment of immune cells [10]. Following, the above stimulation caused microglia activation, and the synthesis of NO and other factors further destroyed the integrity of the BBB [19]. In addition, the BBB increases permeability due to pro-in ammatory factors, resulting in cerebral edema [37].…”

Section: Discussionmentioning

confidence: 99%

“…M1 microglia produce interleukin (IL)-1β, tumor necrosis factor (TNF)-α, nitric oxide (NO), and other proin ammatory factors to accelerate the development of neuroin ammation, resulting in irreversible loss of neurons and aggravating damage to the CNS [16][17][18]. Furthermore, M1-type microglia secrete cytokines and NO, which destroy the BBB, causing endothelial cell necrosis, exacerbating the invasion of other peripheral immune cells, and exacerbating neuroin ammation [17,19]. M2-type microglia produce IL-10, transforming growth factor (TGF)-β, and other anti-in ammatory and neurotrophic factors involved in neuroprotection and maintain the integrity of the BBB [13,20,21].…”

Section: Introductionmentioning

confidence: 99%

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Isoflurane alleviates systemic inflammation-induced neuroinflammation by decreasing the blood-brain barrier's damage and regulating the microglia's polarization

Guo

Zhao

et al. 2023

Preprint

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Background The fundamental pathological role of neuroinflammation is caused by the overactivation of microglia cells in various neurological diseases. Isoflurane has been shown to alleviate neuroinflammation and plays a neuroprotective role in cerebral ischemia-reperfusion, but its role in systemic inflammation remains unclear. This study investigated the role and potential mechanism of isoflurane in neuroinflammation induced by systemic inflammation. Methods Mice were injected with LPS intraperitoneally as the animal model. The cell models were BV2 microglia treated directly with LPS and HT22 neurons treated with the conditioned medium. FCM, IF, IHF, and other methods were used to explore the polarization state of microglia by comparing the effects of minocycline and blockers. WB, qPCR, and other methods were used to reveal the molecular mechanism. Results In this study, systemic inflammation triggers neuroinflammation, microglia activation, and neuronal impairment one day after modeling. Isoflurane attenuates brain edema, immune cell infiltration, and microglia activation by decreasing blood-brain barrier deterioration. In addition, isoflurane plays a neuroprotective role by regulating microglia polarization and inhibiting neuroinflammation. Simultaneously, data collected from in vitro cell experiments support the above findings. Conclusion These data prove that isoflurane plays a protective role in alleviating blood-brain barrier damage and regulating microglial cell polarization by signal axis to alleviate neuronal damage.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Isoflurane alleviates systemic inflammation-induced neuroinflammation by decreasing the blood-brain barrier's damage and regulating the microglia's polarization

Guo

Zhao

et al. 2023

Preprint

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“…Inflammatory cytokines in the blood can activate the hypothalamic-pituitary-adrenal (HPA) axis, and HPA dysfunction leads to corticotropin releasing hormone (CRH), adrenocorticotropic hormone (ACTH), increased secretion of corticosterone (CORT) and its negative feedback dysfunction, upregulate the release of glucocorticoids(GC) and cortisol in the adrenal cortex as well as cause dysregulation of monoamine transmitters, while inflammatory factors decrease the release of glucocorticoids and cortisol through activation of indoleamine-2,3-dioxygenase (IDO) enzyme, IDO activation reduces tryptophan and increases toxic metabolites of the kynurenine pathway, which leads to damage to astrocytes, microglia, and neurons, triggering neuroinflammation, which is positively associated with Major Depressive Disorder (MDD) (18)(19)(20). In addition, inflammatory factors can also induce damage to the blood-brain barrier (BBB) and enter the brain (21,22). Damage to the hippocampal BBB, an important portal for maintaining a homeostatic environment for neurons and glial cells, would allow increased permeability and trigger neuroinflammation (23), which may be an important pathological factor in triggering depression (24).…”

Section: Cyclo-oxygen-ase-2 Roles In the Pathogenesis Of Depression N...mentioning

confidence: 99%

Biology of cyclooxygenase-2: An application in depression therapeutics

Han

Liao

et al. 2022

Front. Psychiatry

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Depressive Disorder is a common mood disorder or affective disorder that is dominated by depressed mood. It is characterized by a high incidence and recurrence. The onset of depression is related to genetic, biological and psychosocial factors. However, the pathogenesis is still unclear. In recent years, there has been an increasing amount of research on the inflammatory hypothesis of depression, in which cyclo-oxygen-ase 2 (COX-2), a pro-inflammatory cytokine, is closely associated with depression. A variety of chemical drugs and natural products have been found to exert therapeutic effects by modulating COX-2 levels. This paper summarizes the relationship between COX-2 and depression in terms of neuroinflammation, intestinal flora, neurotransmitters, HPA axis, mitochondrial dysfunction and hippocampal neuronal damage, which can provide a reference for further preventive control, clinical treatment and scientific research on depression.

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“…Doxycycline decreases matrix metalloprotease-9 (MMP-9) activity, thus preventing blood-brain-barrier disruption and microvascular hyperpermeability [ 111 ]. Hydroxychloroquine and chloroquine have been shown to reduce neuroinflammation by decreasing microglia activation and blood-brain-barrier disruption following cortical impact TBI in animal models [ 112 , 113 ].…”

Section: Therapeutic Targetsmentioning

confidence: 99%

Traumatic Brain Injury and Secondary Neurodegenerative Disease

et al. 2022

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Traumatic brain injury (TBI) is a devastating event with severe long-term complications. TBI and its sequelae are one of the leading causes of death and disability in those under 50 years old. The full extent of secondary brain injury is still being intensely investigated; however, it is now clear that neurotrauma can incite chronic neurodegenerative processes. Chronic traumatic encephalopathy, Parkinson’s disease, and many other neurodegenerative syndromes have all been associated with a history of traumatic brain injury. The complex nature of these pathologies can make clinical assessment, diagnosis, and treatment challenging. The goal of this review is to provide a concise appraisal of the literature with focus on emerging strategies to improve clinical outcomes. First, we review the pathways involved in the pathogenesis of neurotrauma-related neurodegeneration and discuss the clinical implications of this rapidly evolving field. Next, because clinical evaluation and neuroimaging are essential to the diagnosis and management of neurodegenerative diseases, we analyze the clinical investigations that are transforming these areas of research. Finally, we briefly review some of the preclinical therapies that have shown the most promise in improving outcomes after neurotrauma.

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Hydroxychloroquine attenuates neuroinflammation following traumatic brain injury by regulating the TLR4/NF-κB signaling pathway

Cited by 17 publications

References 70 publications

Isoflurane alleviates systemic inflammation-induced neuroinflammation by decreasing the blood-brain barrier's damage and regulating the microglia's polarization

Isoflurane alleviates systemic inflammation-induced neuroinflammation by decreasing the blood-brain barrier's damage and regulating the microglia's polarization

Biology of cyclooxygenase-2: An application in depression therapeutics

Traumatic Brain Injury and Secondary Neurodegenerative Disease

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