Huairui Chen scite author profile

Paroxysmal sympathetic hyperactivity (PSH) is a clinical syndrome affecting a subgroup of survivors of severe brain injury. In this study, the prevalence, magnetic resonance imaging (MRI) presentation, influence on the clinical course in the intensive care unit (ICU), and effect on neurological recovery of PSH were prospectively surveyed in 87 patients with severe traumatic brain injury (TBI). Cranial MRI was performed during the first 30 days after injury. The outcome was assessed according to the Glasgow Outcome Scale (GOS). PSH occurred in 18.4% of patients, with a greater incidence among younger patients and those with lower Glasgow Coma Scale (GCS) scores. Patients with PSH had more deep lesions as shown on cranial MRI, significantly longer ICU stays, and worse outcomes. PSH was shown to be common among patients with severe TBI who also had deep intraparenchymal lesions. The mechanism by which PSH influences patient outcomes has yet to be defined, but we believe that it may be mediated by diencephalic-mesencephalic dysfunction or disconnection.

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A novel lncRNA‐LINC01116 regulates tumorigenesis of glioma by targeting VEGFA

Zhu

Chen

et al. 2019

Intl Journal of Cancer

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Brain glioma is the most common malignant tumor of the central nervous system, and one of the leading causes of death in patients with intracranial tumors. The clinical outcome of glioma is usually poor due to abundant vascularity, fast growth and susceptibility of invasion to normal brain tissues. Our microarray study showed that lncRNA‐LINC01116 was significantly upregulated in glioma tissues and played an important role in cell proliferation, cycle, migration, invasion and angiogenesis. In addition, vascular endothelial growth factor (VEGFA) may be the major target genes in the downstream of lncRNA‐LINC01116. Dual luciferase assay showed that LINC01116 and VEGFA both contained a miR‐31‐5p binding site, and LINC01116 could regulate the expression of VEGFA through competitive absorption of miR‐31‐5p. RNA immunoprecipitation indicated that LINC01116 and VEGFA were present in the miR‐31‐5p‐RISC complex, and biotinylated miR‐31‐5p pull‐down assay suggested that there was a competitive relationship between LINC01116 and VEGFA to bind with miR‐31‐5p. Collectively, our study has identified a novel lncRNA‐LINC01116 and clarified the role and mechanism of LINC01116 in the tumorigenesis of glioma. LINC01116 may prove to be a potential target for the clinical diagnosis and treatment of glioma.

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Up-regulation of USP2a and FASN in gliomas correlates strongly with glioma grade

Tao

Shi

et al. 2013

Journal of Clinical Neuroscience

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Risk Factors Related to Dysautonomia After Severe Traumatic Brain Injury

Hou

et al. 2011

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Hypoxia‐induced miR‐497 decreases glioma cell sensitivity to TMZ by inhibiting apoptosis

et al. 2014

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a b s t r a c tUnderstanding the resistance of glioma cells to chemotherapy has been an enormous challenge. In particular, mechanisms by which tumor cells acquire resistance to chemotherapy under hypoxic conditions are not fully understood. In this study, we have found that miR-497 is overexpressed in glioma and that hypoxia can induce the expression of miR-497 at the transcriptional level by binding with the hypoxia response element in the promoter. Ectopic overexpression of miR-497 promotes chemotherapy resistance in glioma cells by targeting PDCD4, a tumor suppressor that is involved in apoptosis. In contrast, the inhibition of miR-497 enhances apoptosis and increases the sensitivity of glioma cells to TMZ. These results suggest that miR-497 is a potential molecular target for glioma therapy.

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Expression of targeting protein for Xenopus kinesin-like protein 2 is associated with progression of human malignant astrocytoma

Chen

et al. 2010

Brain Research

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RETRACTED: miRNA-193a-3p Regulates the AKT2 Pathway to Inhibit the Growth and Promote the Apoptosis of Glioma Cells by Targeting ALKBH5

et al. 2021

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Emerging evidence indicates that microRNA (miR)-193a-3p is involved in the tumor progression of various cancers. However, the biological functions and precise molecular mechanisms of miR-193a-3p in gliomas have not been well documented. Accordingly, this study focused on the tumor suppressor role and molecular mechanisms of miR-193a-3p in glioma cells. miR-193a-3p expression was determined by qRT-PCR in glioma tissues and cell lines. U251 and U87 glioma cells were transfected with a miR-193a-3p mimic. The effects of miR-193a-3p on cell growth and apoptosis were investigated using MTT, colony-forming, and flow cytometry assays. Overexpression of miR-193a-3p in U87 cells also significantly suppressed tumorigenicity and induced apoptosis in the xenograft mouse model. Luciferase assays were conducted to determine if ALKBH5 is a direct target of miR-193a-3p in glioma cells. Immunoprecipitation was used to explore the interaction between ALKBH5 and RAC-serine/threonine-protein kinase 2 (AKT2) in glioma cells. miR-193a-3p was downregulated in glioma tissues and cell lines. miR-193a-3p treatment suppressed proliferation and promoted apoptosis in both U251 and U87 cells. Bioinformatics analysis and luciferase reporter assay identified a novel miR-193a-3p target, ALKBH5. Notably, the antitumor effect of miR-193a-3p transfection in glioma cells may be due to the miR-193a-3p–induced inhibition of AKT2 expression caused by the suppression of ALKBH5 expression. Furthermore, immunoprecipitation indicated that ALKBH5 physically interacted with AKT2 through an RNA-independent mechanism in glioma cells. miR-193a-3p directly targets ALKBH5 to inhibit the growth and promote the apoptosis of glioma cells by suppressing the AKT2 pathway both in vitro and in vivo, and the physical interaction between ALKBH5 and AKT2 is essential for suppressing cell apoptosis by upregulating miR-193a-3p in glioma cells. Our study revealed that the antitumor effects of miR-193a-3p on glioma cells is due to ALKBH5 mediation of the AKT2-induced intrinsic apoptosis signaling pathway.

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PomGnT1 enhances temozolomide resistance by activating epithelial-mesenchymal transition signaling in glioblastoma

Liu

Xue²,

Chen

et al. 2017

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Temozolomide (TMZ) is commonly used in glioblastoma (GBM) chemotherapy. However, a great challenge for TMZ treatment is the rapid development of resistance and subsequent tumor recurrence and poor outcome. In the present study we established TMZ-resistant GBM cells (U87-TR and U251-TR) and found that the expression of PomGnT1 was significantly upregulated in TMZ-resistant GBM cells compared with the TMZ-sensitive counterparts. Furthermore, overexpression of PomGnT1 in U87-MG and U251-MG cells led to increased IC50 values for TMZ and reduced apoptosis of cells. Knockdown of PomGnT1 in both U87-TR and U251-TR cells led to decreased IC50 values for TMZ and enhanced apoptosis. Biochemical analysis revealed that PomGnT1 regulates the expression of factors in epithelial-mesenchymal transition signaling including TCF8, vimentin, β-catenin and Slug in GBM cells. These findings demonstrate that PomGnT1 might be a new focus of GBM research for treatment of recurrent TMZ-resistant GBM.

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Huairui Chen

Prognostic Influence and Magnetic Resonance Imaging Findings in Paroxysmal Sympathetic Hyperactivity after Severe Traumatic Brain Injury

A novel lncRNA‐LINC01116 regulates tumorigenesis of glioma by targeting VEGFA

Up-regulation of USP2a and FASN in gliomas correlates strongly with glioma grade

Risk Factors Related to Dysautonomia After Severe Traumatic Brain Injury

Hypoxia‐induced miR‐497 decreases glioma cell sensitivity to TMZ by inhibiting apoptosis

Expression of targeting protein for Xenopus kinesin-like protein 2 is associated with progression of human malignant astrocytoma

RETRACTED: miRNA-193a-3p Regulates the AKT2 Pathway to Inhibit the Growth and Promote the Apoptosis of Glioma Cells by Targeting ALKBH5

PomGnT1 enhances temozolomide resistance by activating epithelial-mesenchymal transition signaling in glioblastoma

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