Wei Liu scite author profile

Wei Liu

5Publications

9Citation Statements Received

43Citation Statements Given

How they've been cited

How they cite others

154

Affiliations

Affiliated Hospital of Nantong University, Nantong University

Publications

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Betacellulin regulates peripheral nerve regeneration by affecting Schwann cell migration and axon elongation

Wang

Zhang

et al. 2021

Mol Med

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Background Growth factors execute essential biological functions and affect various physiological and pathological processes, including peripheral nerve repair and regeneration. Our previous sequencing data showed that the mRNA coding for betacellulin (Btc), an epidermal growth factor protein family member, was up-regulated in rat sciatic nerve segment after nerve injury, implying the potential involvement of Btc during peripheral nerve regeneration. Methods Expression of Btc was examined in Schwann cells by immunostaining. The function of Btc in regulating Schwann cells was investigated by transfecting cultured cells with siRNA segment against Btc or treating cells with Btc recombinant protein. The influence of Schwann cell-secreted Btc on neurons was determined using a co-culture assay. The in vivo effects of Btc on Schwann cell migration and axon elongation after rat sciatic nerve injury were further evaluated. Results Immunostaining images and ELISA outcomes indicated that Btc was present in and secreted by Schwann cells. Transwell migration and wound healing observations showed that transfection with siRNA against Btc impeded Schwann cell migration while application of exogenous Btc advanced Schwann cell migration. Besides the regulating effect on Schwann cell phenotype, Btc secreted by Schwann cells influenced neuron behavior and increased neurite length. In vivo evidence supported the promoting role of Btc in nerve regeneration after both rat sciatic nerve crush injury and transection injury. Conclusion Our findings demonstrate the essential roles of Btc on Schwann cell migration and axon elongation and imply the potential application of Btc as a regenerative strategy for treating peripheral nerve injury.

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Betacellulin Regulates Peripheral Nerve Regeneration by Affecting Schwann Cell Migration and Axon Elongation

Wang

Zhang

et al. 2021

Preprint

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Background Growth factors execute essential biological functions and affect various physiological and pathological processes, including peripheral nerve injury and regeneration. Our previous sequencing analysis found that betacellulin (Btc), an epidermal growth factor protein family member, showed elevated mRNA expressions in the nerve segment after rat peripheral nerve injury, implying the potential involvement of Btc during peripheral nerve repair. Methods Expression of Btc was examined in Schwann cells. The role of Btc in regulating Schwann cells was investigated by transfecting cultured cells with siRNA segment against Btc or exposed cultured cells with Btc recombinant protein, respectively. The biological functions of Schwann cell-secreted Btc on neurons were also determined. Moreover, the in vivo effect of Btc on Schwann cell migration and axon elongation after rat sciatic nerve injury were further evaluated.Results Immunostaining images and ELISA readings showed Btc was present in and secreted by Schwann cells. Transwell migration and wound healing observations showed that siRNA against Btc impeded Schwann cell migration while exogenous Btc advanced Schwann cell migration. Besides the regulating effect on Schwann cell phenotype, Btc secreted by Schwann cells might influence neuron behavior and affect axon length. In vivo evidence showed that Btc enhanced axonal regrowth and nerve regeneration after both rat sciatic nerve crush injury and transection injury. Conclusion Our findings demonstrated Btc-mediated Schwann cell-axon interactions, revealed the essential roles of Btc on Schwann cell migration and axon elongation, and implied the potential application of Btc as a regenerative strategy for treating peripheral nerve injury.

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Expression and regulatory network of long noncoding RNA in rats after spinal cord hemisection injury

et al. 2022

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The use of vertical flow constructed wetlands for the treatment of hyper-eutrophic water bodies with dense cyanobacterial blooms

Zhong

Liu

et al. 2017

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Eutrophication often leads to the periodic proliferation of harmful cyanobacterial blooms (HCBs), which threaten the sustainability of freshwater ecosystems and lead to serious environmental, health and economic damage. Hence, it is vitally important to take effective measures to manage HCBs and associated problems. In this study, vertical flow constructed wetlands (CWs) were operated under different hydraulic loading rates (HLRs) to treat a hyper-eutrophic water body with HCBs. Six sampling ports (representing different layers) were evenly distributed along the water flow direction to study the purification processes of CWs. With HLRs ranging from 0.2 m/d to 0.8 m/d, total nitrogen (TN), total phosphorus (TP), COD, total suspended solid (TSS) and Chlorophyll a (Chl.a) were efficiently treated by CWs, and they were mainly removed at the second layer of CWs. The concentrations of two cyanobacterial metabolites (geosmin and β-cyclocitral) in the effluent were mostly below their odorous threshold concentrations. As the HLRs increased, the treatment efficiencies of the CWs decreased gradually. There was no removal of TP, Chl.a, geosmin, or β-cyclocitral at an HLR of 1.0 m/d. Under suitable HLRs, this type of CW could provide a promising way to control HCBs and associated odorous problems in hyper-eutrophic water bodies.

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Selection of suitable internal controls for gene expression normalization in rats with spinal cord injury

Liu

Yu²,

Wang³

et al. 2022

Neural Regen Res

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Wei Liu

Betacellulin regulates peripheral nerve regeneration by affecting Schwann cell migration and axon elongation

Betacellulin Regulates Peripheral Nerve Regeneration by Affecting Schwann Cell Migration and Axon Elongation

Expression and regulatory network of long noncoding RNA in rats after spinal cord hemisection injury

The use of vertical flow constructed wetlands for the treatment of hyper-eutrophic water bodies with dense cyanobacterial blooms

Selection of suitable internal controls for gene expression normalization in rats with spinal cord injury

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