Wenbo Qian scite author profile

Wenbo Qian

4Publications

55Citation Statements Received

119Citation Statements Given

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157

118

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Affiliated Hospital of Nantong University, Nantong University

Publications

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Combination Glioma Therapy Mediated by a Dual‐Targeted Delivery System Constructed Using OMCN–PEG–Pep22/DOX

Qian

Wang

et al. 2018

Small

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were obtained with an Olympus IX71 microscope. At the same time, the transendothelial electrical resistance (TEER) value (>300 Ω cm −2 ) was monitored to validate the reliability of these models. No obvious reduction in the TEER values was observed during the whole experiment, indicating that the transport of drug system did not compromise the BBB barrier properties. All animals were maintained in a pathogen-free environment and fed ad libitum. The procedures for the care and use of animals were approved by the Ethics Committee of Nantong University and all institutional and governmental regulations concerning the ethical use of animals followed.

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An MSN-PEG-IP drug delivery system and IL13Rα2 as targeted therapy for glioma

et al. 2017

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A combination of gene therapy and chemotherapy has recently received interest as a targeted therapy for glioma. A mesoporous silica nanoparticle (MSN)-based vehicle coated with IL13Rα2-targeted peptide (IP) using polyethylene glycol (PEG), MSN-PEG-IP (MPI), was constructed and confirmed as a potential glioma-targeted drug delivery system in vitro. In this work, tissue microarray (TMA) results revealed that IL13Rα2 was over-expressed in human glioma tissues and that high expression of IL13Rα2 in patients was associated with poor survival. Doxorubicin (DOX)-loaded MPI (MPI/D) crossed the blood-brain barrier, specifically targeting glioma cells and significantly enhancing the cellular uptake of DOX in glioma cells compared with MSN/DOX (M/D) and MSN-PEG/DOX (MP/D), whereas the normal brain was not affected. Magnetic Resonance Imaging (MRI) examinations showed that the tumour size of glioma-bearing rats in the MPI/D-treated group was much smaller than those in the M/D and MP/D treated groups. Immunofluorescence results demonstrated that MPI/D treatment induced more apoptosis and much less proliferation than the other two treatments. However, the therapeutic effect was weak when IL13Rα2 was knocked down. Furthermore, U87 cells treated with IL-13 and MPI together could increase both STAT6 and P63 expression, which attenuated glioma cell proliferation, invasion and migration compared with cells treated with IL-13 alone. The results of the subcutaneous tumour model also revealed that IL13Rα2 knockdown could hinder cell proliferation and induce more apoptosis. The promising results suggested that MPI can not only deliver DOX to glioma in a targeted manner but also occupy IL13Rα2, which can promote IL-13 binding to IL13Rα1 and activation of the JAK-STAT pathway to induce an anti-glioma effect.

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2,3,7,8‐Tetrachlorodibenzo‐p‐dioxin promotes astrocyte activation and the secretion of tumor necrosis factor‐α via PKC/SSeCKS‐dependent mechanisms

Zhang

Nie

Tao

et al. 2014

Journal of Neurochemistry

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2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) is a ubiquitous environmental pollutant that could induce significant toxic effects in the human nervous system. However, the underlying molecular mechanism has not been entirely elucidated. Reactive astrogliosis has implicated in various neurological diseases via the production of a variety of pro-inflammatory mediators. Herein, we investigated the potential role of TCDD in facilitating astrocyte activation and the underlying molecular mechanisms. We showed that TCDD induced rapid astrocyte activation following TCDD exposure, which was accompanied by significantly elevated expression of Src-Suppressed-C Kinase Substrate (SSeCKS), a protein involved in protein kinase C (PKC)-mediated Nuclear Factor kappa B signaling, suggesting a possible involvement of PKC-induced SSeCKS activation in TCDD-triggered reactive astroglia. In keeping with the finding, we found that the level of phosphorylated Nuclear Factor kappa B p65 was remarkably increased after TCDD treatment. Furthermore, interference of SSeCKS attenuated TCDD-induced inducible nitric oxide synthase, glial fibrillary acidic protein, phospho-p65 expression, and tumor necrosis factor-a secretion in astrocytes. In addition, pre-treatment with PKC inhibitor also attenuated TCDD-induced astrocyte activation, as well as SSeCKS expression. Interestingly, we found that TCDD treatment could lead to SSeCKS perinuclear localization, which could be abolished after treatment with PKC inhibitor. Finally, we showed that inhibition of PKC activity or SSeCKS expression would impair TCDD-triggered tumor necrosis factor-a secretion. Our results suggested that TCDD exposure could lead to astrocyte activation through PKC/ SSeCKS-dependent mechanisms, highlighting that astrocytes might be important target of TCDD-induced neurotoxicity.

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Glioma Therapy: Combination Glioma Therapy Mediated by a Dual‐Targeted Delivery System Constructed Using OMCN–PEG–Pep22/DOX (Small 42/2018)

Qian

Wang

et al. 2018

Small

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In article number https://doi.org/10.1002/smll.201801905, Jinlong Shi, Rongqin Huang, Wei Shi, and co‐workers describe a novel drug‐loaded system, OPPD, which uses PEG and OMCN linked to the Pep22 polypeptide targeting the low‐density lipoprotein receptor, that can effectively cross the blood‐brain barrier and target glioma cells, exerting an outstanding therapeutic efficacy via both the near‐infrared photothermal and chemotherapeutic effects of the loaded DOX. The collective findings support the utility of OPPD, a promising drug‐delivery vehicle, for future clinical application in glioma therapy.

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Wenbo Qian

Combination Glioma Therapy Mediated by a Dual‐Targeted Delivery System Constructed Using OMCN–PEG–Pep22/DOX

An MSN-PEG-IP drug delivery system and IL13Rα2 as targeted therapy for glioma

2,3,7,8‐Tetrachlorodibenzo‐p‐dioxin promotes astrocyte activation and the secretion of tumor necrosis factor‐α via PKC/SSeCKS‐dependent mechanisms

Glioma Therapy: Combination Glioma Therapy Mediated by a Dual‐Targeted Delivery System Constructed Using OMCN–PEG–Pep22/DOX (Small 42/2018)

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