Fachen Wang scite author profile

Fachen Wang

5Publications

54Citation Statements Received

31Citation Statements Given

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147

Affiliations

Yidu Central Hospital of Weifang

Publications

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miR-15b Inhibits the Progression of Glioblastoma Cells Through Targeting Insulin-like Growth Factor Receptor 1

et al. 2016

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The microRNAs (miRNAs) have been suggested as a tumor suppressor in recent years. miR-15b was reported to exert an anti-oncogenic role in the proliferation, migration, and invasion of diverse tumor cells. However, the mechanisms underlying miR-15b-mediated biology of glioblastoma are still unclear. In the present study, the expression of miR-15b was down-regulated in glioblastoma tumor tissues and U87 and U251 cells, but insulin-like growth factor receptor 1 (IGF1R) expression became up-regulated in these tumor tissues and cells (all p < 0.001). Furthermore, IGF1R expression was inversely associated with miR-15b expression. Notably, patients with lower miR-15b expression have a much shorter survival period compared with high expression (log-rank test p = 0.045). In vitro data demonstrated that miR-15b mimics inhibited the proliferation, cell cycle arrest, and invasion of U87 and U251 cells. Besides, we validated IGF1R as a direct target of miR-15b using dual luciferase assays, and IGF1R plasmids partially abrogated miR-15b mimics inhibited cell proliferation. In vivo, miR-15b mimics indeed repressed cell proliferation in mouse xenograft model. In conclusion, our study demonstrated that miR-15b inhibits the progression of glioblastoma cells through targeting IGF1R, and miR-15b can be recommended as a tumor suppressor in the progression of glioblastoma.

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Dual Functional MicroRNA-186-5p Targets both FGF2 and RelA to Suppress Tumorigenesis of Glioblastoma Multiforme

et al. 2017

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Glioblastoma multiforme (GBM) is one of the most malignant cancers. MicroRNAs (miRs) were reported to play important roles in GBM recently. However, the role of a novel miR-186-5p in GBM tumorigenesis is still elusive. Using bioinformatics, miR-186-5p was identified as potential regulators of both fibroblast growth factor (FGF)-2 and NF-κB subunit RelA. Luciferase reporter assay was used to confirm the direct recognition FGF2 and RelA mRNAs by miR-186-5p. Invasion and migration assays were employed to study the effect of miR-186-5p on GBM cell growth in vitro. Xenograft tumor animal model was established to elucidate the in vivo function of miR-186-5p. MiR-186-5p directly targeted mRNAs of both FGF2 and RelA, and repressed their expressions. Invasive and migratory abilities of GBM cells and growth of xenograft tumors were significantly inhibited by miR-186-5p, which can be restored by re-introduction of FGF2 and RelA expressions. MiR-186-5p is a novel tumor suppressor miR that functions to inhibit tumorigenesis of GBM both in vitro and in vivo, by targeting both FGF2 and RelA. MiR-186-5p/FGF2/RelA pathway may be potentially used as molecular targets of in the clinical treatment of GBM.

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Human peripheral blood-derived mesenchymal stem cells with NTRK1 over-expression enhance repairing capability in a rat model of Parkinson’s disease

Liu

Zhang

et al. 2018

Cytotechnology

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The potency of mesenchymal stem cells (MSCs) for tissue repair and regeneration is mainly based on their ability to secret beneficial molecules. Administration of MSCs has been proposed as an innovative approach and is proved by a number of clinical trials to a certain degree for the therapy of many diseases including Parkinson's disease (PD). However, the efficacy of MSCs alone is not significant. We investigated the effect of neurotrophic tyrosine receptor kinase 1 (NTRK1) overexpressed peripheral blood MSCs (PB-MSCs) on PD rat model. NTRK1 was overexpressed in PB-MSCs, which were then injected into PD rat model, Dopaminergic (DA) neuron regeneration and rotational performance was assessed. We found that DA neuron repair was increased in lesion site, rotational performance was also improved in MSC transplanted PD rat, with most potent effect in NTRK1 overexpressed PB-MSC transplanted PD rat. Our results indicate that overexpression of NTRK1 in MSCs could be an optimized therapeutic way via MSCs for PD treatment.

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A Promising Glycolysis- and Immune-Related Prognostic Signature for Glioblastoma

Wang¹,

Liu²,

Jiang³

et al. 2022

World Neurosurgery

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MicroRNA-520b affects the proliferation of human glioblastoma cells by directly targeting cyclin D1

et al. 2015

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Glioblastoma (GBM) represents one of most common tumors in humans. However, the biological processes and molecular mechanisms of GBM are still unclear. It is known that microRNA-520b (miR-520b) participates in the development of various tumor progressions. The present study was to evaluate the level of miR-520b in GBM tissues and cells. We further investigated the molecular mechanisms of miR-520b in U87 and U251 cell lines. Here, our data showed that the expression levels of miR-520b were significantly reduced in clinical GBM tissues and cell lines. Accordingly, the expression levels of cyclin D1 were significantly increased in clinical GBM tissues and cell lines. Ectopic expression of miR-520b in U87 and U251 cells resulted in decreased cell proliferation and enhanced cell apoptosis. Further study characterized the 3' untranslated region (3'-UTR) of cyclin D1 gene as a direct target of miR-520b in U87 and U251 cells as determined by luciferase reporter assays. In addition, ectopic expression of miR-520b led to the down-regulation of phosphorylated retinoblastoma (p-Rb, a downstream effector of cyclin D1), while the overexpression of cyclin D1 reversed the miR-520b-induced inhibition of p-Rb expression. In conclusion, this study highlights the importance of miR-520b in regulating the proliferation and apoptosis of GBM by directly targeting cyclin D1, and miR-520b may represent a potential therapeutic strategy for GBM.

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Fachen Wang

miR-15b Inhibits the Progression of Glioblastoma Cells Through Targeting Insulin-like Growth Factor Receptor 1

Dual Functional MicroRNA-186-5p Targets both FGF2 and RelA to Suppress Tumorigenesis of Glioblastoma Multiforme

Human peripheral blood-derived mesenchymal stem cells with NTRK1 over-expression enhance repairing capability in a rat model of Parkinson’s disease

A Promising Glycolysis- and Immune-Related Prognostic Signature for Glioblastoma

MicroRNA-520b affects the proliferation of human glioblastoma cells by directly targeting cyclin D1

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