Your search keyword '"Chen, Bei-Yu"' showing total 4 results

1. Lead exposure induced microgliosis and astrogliosis in hippocampus of young mice potentially by triggering TLR4–MyD88–NFκB signaling cascades.

Author

Liu, Jin-Tao, Chen, Bei-Yu, Zhang, Jie-Qiong, Kuang, Fang, and Chen, Liang-Wei

Subjects

*GLIOSIS, *HIPPOCAMPUS physiology, *LABORATORY mice, *TOLL-like receptors, *NF-kappa B, *CELLULAR signal transduction

Abstract

Proper proliferation and differentiation of neural stem cells or progenitors in hippocampus is critical to learn and memory functions, which might be disturbed by lead toxicity particularly in young individuals. While astroglial and microglial cells are known to play an important role in regulating neurogenesis of hippocampus, their abnormal response and influence on hippocampal neurogenesis remains unclear. In this study, therefore, glial response including microgliosis, astrogliogenesis and mediating involvement of TLR4–MyD88–NFκB signaling cascades were observed in hippocampus of young mice by animal model with lead (plumbum, Pb) exposure. It revealed that (1) significant microglial activation occurred in hippocampus soon following Pb exposure; (2) increased levels of TLR4, MyD88, NFκB expression were concomitantly detected; (3) BrdU-incorporated progenitor cells were observed in dentate gyrus with significantly-increased numbers at d28 in Pb insult group; (4) obvious astrogliogenesis was observed while these doublecortin-labeled differentiated neurons were not significantly changed in hippocampus; (5) administration of MyD88 inhibitory peptide attenuated or relieved above effects; (6) enhanced expression levels of IL-1β, TNFα, p38MAPK and ERK1/2 were also detected in hippocampus, indicating potential implication of inflammatory response and MAPK signaling activation in lead-induced microgliosis and astrogliosis. Data of this study overall have indicated that lead exposure could trigger or induce abnormal microgliosis and astrogliogenesis in the hippocampus of young mice through triggering TLR4–MyD88–NFκB signaling cascades, which might possibly thereafter disturb hippocampal neurogenesis and functional plasticity. [ABSTRACT FROM AUTHOR]

Published

2015

2. Reactive Astrocytes Display Pro-inflammatory Adaptability with Modulation of Notch-PI3K-AKT Signaling Pathway Under Inflammatory Stimulation.

Author

Cheng, Ying-Ying, Ding, Yin-Xiu, Bian, Gan-Lan, Chen, Liang-Wei, Yao, Xin-Yi, Lin, Ye-Bin, Wang, Zhe, and Chen, Bei-Yu

Subjects

*ASTROCYTES, *NEUROGLIA, *CENTRAL nervous system, *INFLAMMATION, *NOTCH signaling pathway

Abstract

• Primary astrocytes increased iNOS, IL1β, IL6 and TNF expression after LPS+IFNγ stimulation. • Notch signal inhibitor GSI lessened pro-inflammatory cytokine levels in the reactive astrocytes. • Up-regulation of PI3K-AKT and MyD88-NFкB signals was confirmed in the reactive astrocytes. • Reactive astrocytes displayed pro-inflammatory changes via Notch-PI3K-AKT signaling activation. Astrocytes are major glial cells critical in assisting the function of the central nervous system (CNS), but the functional changes and regulation mechanism of reactive astrocytes are still poorly understood in CNS diseases. In this study, mouse primary astrocytes were cultured, and inflammatory insult was performed to observe functional changes in astrocytes and the involvement of Notch-PI3K-AKT signaling activation through immunofluorescence, PCR, Western blot, CCK-8, and inhibition experiments. Notch downstream signal Hes-1 was clearly observed in the astrocytes, and Notch signal inhibitor GSI dose-dependently decreased the cleaved Notch-l level without an influence on cell viability. Inflammatory insult of lipopolysaccharide plus interferon-γ (LPS+IFNγ) induced an increase in pro-inflammatory cytokines, that is, iNOS, IL-1β, IL-6, and TNF, at the protein and mRNA levels in activated astrocytes, which was reduced or blocked by GSI treatment. The cell viability of the astrocytes did not show significant differences among different groups. While an increase in MyD88, NF-кB, and phosphor-NF-кB was confirmed, upregulation of PI3K, AKT, and phosphor-AKT was observed in the activated astrocytes with LPS+IFNγ insult and was reduced by GSI treatment. Inhibitor experiments showed that inhibition of Notch-PI3K-AKT signaling activation reduced the pro-inflammatory cytokine production triggered by LPS+IFNγ inflammatory insult. This study showed that the reactive astrocytes displayed pro-inflammatory adaptability through Notch-PI3K-AKT signaling activation in response to inflammatory stimulation, suggesting that the Notch-PI3K-AKT pathway in reactive astrocytes may serve as a promising target against CNS inflammatory disorders. [ABSTRACT FROM AUTHOR]

Published

2020

3. Reactive astrocytes increase expression of proNGF in the mouse model of contused spinal cord injury.

Author

Cheng, Ying-Ying, Zhao, Hai-Kang, Chen, Liang-Wei, Yao, Xin-Yi, Wang, Yu-Ling, Huang, Zhen-Wen, Li, Guo-Peng, Wang, Zhe, and Chen, Bei-Yu

Subjects

*SPINAL cord injuries, *NERVE growth factor, *GLIAL fibrillary acidic protein, *NEUROTROPHINS

Abstract

• Reactive astrocytes display increased expression of proNGF in mouse model of injury spinal cord. • Astrocytic proNGF appears in both exosome-like vesicles and homogeneous form in the cytoplasm. • Activated astrocytes also increase expression level and release of proNGF following LPS exposure. Astrocytes are major glial cells critically in maintaining stability of the central nervous system and functional activation of astrocytes occurs rapidly in various diseased or traumatic events. We are interested in functional changes of astrocytes during the spinal cord injury, and studied expression of nerve growth factor (NGF) in activated astrocytes by mouse model of contused spinal cord injury and cell culture experiment. It revealed that the spinal cord injury resulted in apparent activation of astrocytes and microglial cells and decreased BMS scores. A larger number of astrocytes showed immunoreactivity to proNGF in the injured spinal cord areas, and proNGF expression increased and remained high level at 7 to 14dpi, which was coincided with upregulation of glial fibrillary acidic protein. The proNGF was clearly localized in both exosome-like vesicles and cytoplasm of astrocytes in culture. Electron microscopy confirmed exosome-like vesicles with proNGF-immunoreactivity in diameter sizes of 50–100 nm. Finally, cell culture with lipopolysaccharide (LPS) experiment indicated increasing expression and release of proNGF in the astrocytes with LPS exposure. This study demonstrated that reactive astrocytes increased proNGF expression after spinal cord injury, also suggesting involvement of exosome-like proNGF transport or release in triggering neuronal apoptosis and aggravating progression of spinal cord injury. [ABSTRACT FROM AUTHOR]

Published

2020

4. Evaluation of body weight-based vancomycin therapy and the incidence of nephrotoxicity: a retrospective study in the northwest of China.

Author

Dong, Mo-Han, Wang, Jing-Wen, Wu, Yin, Chen, Bei-Yu, Yu, Min, and Wen, Ai-Dong

Subjects

*BODY weight, *VANCOMYCIN, *NEPHROTOXICOLOGY, *BLOOD serum analysis, *RETROSPECTIVE studies

Abstract

Summary Objective To identify specific risk factors of vancomycin-induced nephrotoxicity in China, as the relationship between vancomycin therapy (dosing and trough concentration monitoring) and nephrotoxicity has been the subject of critical debate. Methods The cases of 90 critically ill patients who received vancomycin therapy in Xijing Hospital in the northwest of China between March 2014 and January 2015 were reviewed retrospectively. Vancomycin dosing, blood serum trough concentration, and other independent risk factors associated with nephrotoxicity were evaluated in a multivariable model. Results Among the 90 critically ill patients, 59 were males; mean age was 46.3 years. The indications for vancomycin use were methicillin-resistant Staphylococcus aureus -associated pneumonia, central nervous system infection, and bacteremia. Clinical pharmacists prescribed weight-based dosing, ranging from 20 to 45 mg/kg/day. Fourteen (15.6%) patients developed nephrotoxicity, with serum creatinine elevated significantly from a mean (standard deviation) of 90.0 (18.8) μmol/l to 133.8 (63.2) μmol/l ( p = 0.015). It was found that those with a vancomycin dosage >38 mg/kg/day (50.0% vs. 11.3%, p = 0.004) and a vancomycin serum trough concentration >20 mg/l (57.1% vs. 12.0%, p = 0.01) were more likely to develop nephrotoxicity. Conclusion The data from this study indicate that a vancomycin dosage >38 mg/kg/day and a serum trough level >20 mg/l are both independent factors associated with the development of nephrotoxicity, suggesting that renal function should be monitored closely during vancomycin treatment. [ABSTRACT FROM AUTHOR]

Published

2015