HMGB1 in Development and Diseases of the Central Nervous System

Fang, Ping; Schachner, Melitta; Shen, Yan‐Qin

doi:10.1007/s12035-012-8264-y

Cited by 170 publications

(132 citation statements)

References 56 publications

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“…[27][28][29] There is growing evidence that HMGB1 and RAGE signaling and related inflammatory reactions are involved in the pathogenesis of various disorders, including cardiovascular, neurodegenerative, and immune disorders. 12,20,[30][31][32][33] We have recently established that plasma levels of HMGB1 as well as interactions between HMGB1 and RAGE were increased significantly after ischemic stroke onset both in human and mice. 14 We also found that administration of recombinant sRAGE effectively protects mice from ischemic reperfusion injury and protects primary neurons from energy deprivation-induced cell death via a mechanism involving reduced RAGE-associated inflammatory pathways.…”

Section: Discussionmentioning

confidence: 99%

Cerebrospinal fluid high mobility group box 1 is associated with neuronal death in subarachnoid hemorrhage

Wang

Tang

Lee

et al. 2016

J Cereb Blood Flow Metab

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We aim to determine the cerebrospinal fluid levels of high mobility group box 1 in subarachnoid hemorrhage patients and to investigate the involvement of the receptor for advanced glycation end products and high mobility group box 1 in the pathogenesis of post-subarachnoid hemorrhage neuronal death. The study included 40 patients (mean age, 59 AE 19 years) with Fisher's grade ! III aneurysmal subarachnoid hemorrhage. Cerebrospinal fluid was collected on the seventh day post-hemorrhage. Receptor for advanced glycation end products expression was examined in rat brain tissue following subarachnoid hemorrhage and in cultured neurons exposed to post-subarachnoid hemorrhage cerebrospinal fluid. Therapeutic effects of the recombinant soluble form of RAGE on subarachnoid hemorrhage models were also investigated. The results indicated that a higher level of cerebrospinal fluid high mobility group box 1 was independently associated with unfavorable outcome at three months post-subarachnoid hemorrhage (OR ¼ 1.061, 95% CI: 1.005-1.121). Expression of RAGE increased in post-subarachnoid hemorrhage rat brain cells and in cultured neuron with stimulation of post-subarachnoid hemorrhage cerebrospinal fluid. Administration of recombinant soluble form of RAGE significantly reduced the number of positive TUNEL staining cells in subarachnoid hemorrhage rat and improved cell viability in post-subarachnoid hemorrhage cerebrospinal fluid-treated cultured neurons. Thus, the level of cerebrospinal fluid high mobility group box 1 can be a prognostic indicator for patients with Fisher's grade ! III aneurysmal subarachnoid hemorrhage and that treatment with soluble form of RAGE is a novel approach for subarachnoid hemorrhage.

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Section: Discussionmentioning

confidence: 99%

Cerebrospinal fluid high mobility group box 1 is associated with neuronal death in subarachnoid hemorrhage

Wang

Tang

Lee

et al. 2016

J Cereb Blood Flow Metab

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“…HMGB1 has a pivotal role in the induction of neuroinflammatory processes in neurodegenerative conditions (Fang et al, 2012), cerebral ischemia (Yang et al, 2010), traumatic brain injury (Corps et al, 2015), seizure (Vezzani, 2014), and ethanolinduced neurotoxicity (Zou and Crews, 2014). HMGB1 is a DNA structural protein that has been co-opted by the innate immune system to signal damage during sterile inflammatory conditions (Bianchi, 2007).…”

Section: Hmgb1mentioning

confidence: 99%

Danger Signals and Inflammasomes: Stress-Evoked Sterile Inflammation in Mood Disorders

Fleshner

Frank

Maier

2016

Neuropsychopharmacol

176

125

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Major depressive disorder (MDD) and other mood disorders remain difficult to effectively treat, and innovative interventions and therapeutic targets are needed. Psychological stressors and inappropriate inflammation increase the risk and severity of mood disorders; however, only recently have the importance of sterile inflammatory processes in this effect been revealed. This review will introduce the reader to pathogen vs sterile inflammation, inflammatory receptor-ligand interactions, microbialassociated molecular patterns (MAMPs), pathogen-associated molecular patterns (PAMPs), danger-associated molecular patterns (DAMPs), and the more recent discovery of the role of the inflammasome in peripheral and central nervous system cytokine/chemokine inflammatory responses. The review will focus on current preclinical and clinical evidence that sterile inflammation and inflammasome-dependent signaling may contribute to mood disorders. By understanding these inflammatory signaling processes, new approaches for quieting chronic or inappropriate inflammatory states may be revealed and this could serve as novel pharmacological targets for the treatment of mood disorders.

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“…HMGB1 also serves to induce neuroinflammation after injury, such as lesions in the spinal cord and brain (16,18,59). To elucidate whether neuron and microglia, a type of glial cells that are the resident macrophages of the brain and spinal cord, have participated in the physiological processes through activation of one or both HMGB1 paralog signalings, we first succeeded in preparation of the recombinant proteins by eukaryotic expression in 293T cells and then of the polyclonal antibodies (Fig.…”

Section: Differential Responses Of Ghmgb1a and Ghmgb1b To The Spinal mentioning

confidence: 99%

“…A plethora of studies have revealed that HMGB1 plays double-edged roles in neural development and neurodegeneration (59). Therefore, we transfected the plasmids of gHMGB1a and gHMGB1b into PC12 and SH-SY5Y cell lines to examine their effects on neurites.…”

Section: Differential Responses Of Ghmgb1a and Ghmgb1b To The Spinal mentioning

confidence: 99%

HMGB1 Protein Does Not Mediate the Inflammatory Response in Spontaneous Spinal Cord Regeneration

Dong

Huan

et al. 2013

Journal of Biological Chemistry

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Background: HMGB1 in spontaneously regenerating spinal cord does not trigger the inflammation in contrast to those in injured mammalian cords. Results: Gecko HMGB1 paralogs failed to interact with TLR2 and TLR4 but do with RAGE receptors to activate the signaling pathway. Conclusion: HMGB1 is beneficial for spontaneous spinal cord regeneration by eliciting negligible inflammation and promoting oligodendrocyte migration. Significance: HMGB1 displays distinct functions in regenerative vertebrates.

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HMGB1 in Development and Diseases of the Central Nervous System

Cited by 170 publications

References 56 publications

Cerebrospinal fluid high mobility group box 1 is associated with neuronal death in subarachnoid hemorrhage

Cerebrospinal fluid high mobility group box 1 is associated with neuronal death in subarachnoid hemorrhage

Danger Signals and Inflammasomes: Stress-Evoked Sterile Inflammation in Mood Disorders

HMGB1 Protein Does Not Mediate the Inflammatory Response in Spontaneous Spinal Cord Regeneration

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