Toll-like receptor 4 signaling: A common pathway for interactions between prooxidants and extracellular disulfide high mobility group box 1 (HMGB1) protein-coupled activation

Zhang, Yan; Karki, Rajendra; Igwe, Orisa J.

doi:10.1016/j.bcp.2015.08.109

Cited by 31 publications

(24 citation statements)

References 73 publications

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“…Because we found that the effects of LPS could be attenuated by a CCR2 antagonist, we suspect that the maintenance of hypersensitivity induced by LPS is mediated through activation of TLR4 and subsequent upregulation of MCP-1/CCL2. This finding was intriguing because activation of TLR4 elicits the generation of ROS/RNS in macrophages (Qin et al, 2005a, Zhang et al, 2015), yet in neurons TLR4 activation cannot maintain sensitivity without activation of the CCR2. Therefore, we propose that the quantitative, spatial and temporal aspects of ROS/RNS generation are critical for inducing DNA damage and will be studied further.…”

Section: Discussionmentioning

confidence: 99%

DNA damage mediates changes in neuronal sensitivity induced by the inflammatory mediators, MCP-1 and LPS, and can be reversed by enhancing the DNA repair function of APE1

et al. 2017

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Although inflammation-induced peripheral sensitization oftentimes resolves as an injury heals, this sensitization can be pathologically maintained and contribute to chronic inflammatory pain. Numerous inflammatory mediators increase the production of reactive oxygen (ROS) and nitrogen species (RNS) during inflammation and in animal models of chronic neuropathic pain. Our previous studies demonstrate that ROS/RNS and subsequent DNA damage mediate changes in neuronal sensitivity induced by anticancer drugs and by ionizing radiation in sensory neurons, thus we investigated whether inflammation and inflammatory mediators also could cause DNA damage in sensory neurons and whether that DNA damage alters neuronal sensitivity. DNA damage was assessed by pH2A.X expression and the release of the neuropeptide, calcitonin gene-related peptide (CGRP), was measured as an index of neuronal sensitivity. Peripheral inflammation or exposure of cultured sensory neurons to the inflammatory mediators, LPS and MCP-1, elicited DNA damage. Moreover, exposure of sensory neuronal cultures to LPS or MCP-1 resulted in changes in the stimulated release of CGRP, without altering resting release or CGRP content. Genetically enhancing the expression of the DNA repair enzyme, apurinic/apyrimidinic endonuclease (APE1) or treatment with a small-molecule modulator of APE1 DNA repair activity, both which enhance DNA repair, attenuated DNA damage and the changes in neuronal sensitivity elicited by LPS or MCP-1. In conclusion, our studies demonstrate that inflammation or exposure to inflammatory mediators elicits DNA damage in sensory neurons. By enhancing DNA repair, we demonstrate that this DNA damage mediates the alteration of neuronal function induced by inflammatory mediators in peptidergic sensory neurons.

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Section: Discussionmentioning

confidence: 99%

DNA damage mediates changes in neuronal sensitivity induced by the inflammatory mediators, MCP-1 and LPS, and can be reversed by enhancing the DNA repair function of APE1

et al. 2017

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“…These results suggest that these two stimulants can stimulate cells from both ends of the signaling pathway ( Figure 3) to induce changes in the nodes of the pathway. Based on these results 15,16 and previous reports, 17,18 the investigators speculated that the overexpression of HBx could inhibit the activity of NF-κB in normal hepatocytes, and NF-κB, HMGB1 and ROS were mutually regulated, TLR4 is also involved in regulation. Therefore, the investigators conclude that HBx suppresses the expression of HMGB1 and the production of ROS through NF-κB signaling pathway.…”

Section: Discussionmentioning

confidence: 62%

HBx inhibits HMGB1 expression and active oxygen production in LO2 cells through the NF‐κB signaling pathway

Wang

et al. 2019

The Kaohsiung J of Med Scie

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Hepatitis B virus (HBV) infection is one of major causes of various kinds of liver diseases. Among the four open reading frames (ORFs) of the HBV genome, the X region of HBV encodes HBx protein, which plays an important regulatory role in HBV infection. NF‐κB and high‐mobility group protein box1 (HMGB1) are potentially able to enhance the scavenging activity of host cells against foreign microorganisms. The present study focuses on the effect of HBx on the expression of HMGB1 in vitro. First, the lentiviral vector was used to induce the overexpression of HBx protein in LO2 cells (a normal hepatocyte cell line). Then, NF‐κB activity, HMGB1 expression and the production of ROS were detected by Western blot and DCFH‐DA (ROS detector) staining. Afterward, rotenone and LPS, which are activors of ROS and NF‐κB, respectively, were used to stimulate HBx‐overexpressing cells. Then, the expression differentiation of HMGB1 and ROS or the activity alternation of NF‐κB was detected again. HBx inhibited the activity of NF‐κB, inhibited the expression of HMGB1 and inhibited the production of ROS. The stimulation study with retenone or LPS suggested that there were mutual regulations between NF‐κB and HMGB1. HBx inhibits the expression of HMGB1 and the generation of ROS via the NF‐κB signaling pathway.

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“…In fact, only the disulfide (oxidized) isoform of this molecule activates TLR4 and promotes seizures but not the reduced form, which has instead chemoattractive properties [35,36]. …”

Section: The Il-1 Receptor (Il-1r1) and Toll-like Receptor (Tlr) Signmentioning

confidence: 99%

Modulation of neuronal excitability by immune mediators in epilepsy

Iori

Frigerio

Vezzani

2016

Current Opinion in Pharmacology

107

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A complex set of inflammatory molecules and their receptors has been described in epileptogenic foci in different forms of pharmacoresistant epilepsies. By activating receptor-mediated pathways in neurons, these molecules have profound neuromodulatory effects that are distinct from their canonical activation of immune functions. Importantly, the neuromodulatory actions of some inflammatory molecules contribute to hyperexcitability in neural networks that underlie seizures. This review summarizes recent findings related to the role of cytokines (IL-1beta and TNF-alpha) and danger signals (HMGB1) in decreasing seizure threshold, thereby contributing to seizure generation and the associated neuropathology. We will discuss preclinical studies suggesting that pharmacological inhibition of specific inflammatory signals may be useful to treat drug-resistant seizures in human epilepsy, and possibly arrest epileptogenesis in individuals at risk of developing the disease.

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Toll-like receptor 4 signaling: A common pathway for interactions between prooxidants and extracellular disulfide high mobility group box 1 (HMGB1) protein-coupled activation

Cited by 31 publications

References 73 publications

DNA damage mediates changes in neuronal sensitivity induced by the inflammatory mediators, MCP-1 and LPS, and can be reversed by enhancing the DNA repair function of APE1

DNA damage mediates changes in neuronal sensitivity induced by the inflammatory mediators, MCP-1 and LPS, and can be reversed by enhancing the DNA repair function of APE1

HBx inhibits HMGB1 expression and active oxygen production in LO2 cells through the NF‐κB signaling pathway

Modulation of neuronal excitability by immune mediators in epilepsy

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