近5年通讯作者代表性论文
[1] Liu DN, Liu M, Zhang SS, Shang YF, Zhang WF, Song FH, Zhang HW, Du GH*, Wang YH*. Chrysomycin A regulates proliferation and apoptosis of neuroglioma cells via the Akt/GSK-3β signaling pathway in vivo and in vitro. Mar Drugs 2023, 21, 329.
[2] Cheng X, Yang YL, Li WH, Liu M, Zhang SS, Liu DN, Du LD, Wang YH*, Du GH*. Xiao-Xu-Ming decoction extracts promotes mitochondrial biogenesis and improves neurobehavioral deficits in cerebral ischemia/reperfusion rats. Pharmacol Res - MCM, 2022, 5, 100192 (1-9).
[3] Zhang SS, Liu M, Liu DN, Shang YF, Du GH*, Wang YH*. Network pharmacology analysis and experimental validation of kaempferol in the treatment of ischemic stroke by inhibiting apoptosis and regulating neuroinflammation involving neutrophils. Int J Mol Sci, 2022, 23, 12694.
[4] Liu DN, Liu M, Zhang SS, Shang YF, Song FH, Zhang HW, Du GH*, Wang YH*. Chrysomycin A inhibits the proliferation, migration and invasion of U251 and U87-MG glioblastoma cells to exert its anti-cancer effects. Molecules 2022, 27, 6148.
[5] Zhang SS, Liu M, Liu DN, Shang YF, Wang YH*, Du GH*. ST2825, a small molecule inhibitor of MyD88, suppresses NF-κB activation and the ROS/NLRP3/cleaved caspase-1 signaling pathway to attenuate lipopolysaccharide-stimulated neuroinflammation. Molecules 2022, 27, 2990.
[6] Zhang SS, Liu M, Liu DN, Yang YL, Du GH*, Wang YH*. TLR4 IN C34 inhibits lipopolysaccharide stimulated inflammatory responses via downregulating TLR4/ MyD88/NF κB/NLRP3 signaling pathway and reducing ROS generation in BV2 cells. Inflammation, 2022, 45(2): 838-850.
[7] Liu M, Yang YL, Zhang SS, Liu DN, Fang LH*, Du GH, Wang YH*. RKC-B1 blocks activation of NF-κB and NLRP3 signaling pathways to suppress neuroinflammation in LPS-stimulated mice. Mar. Drugs 2021, 19, 429.
[8] Liu M, Zhang SS, Liu DN, Yang YL, Wang YH*, Du GH*. Chrysomycin A attenuates neuroinflammation by down-regulating NLRP3/Cleaved caspase-1 signaling pathway in LPS-stimulated mice and BV2 cells. Int J Mol Sci, 2021, 22(13): 6799.
[9] Li WH, Yang YL, Cheng X, Liu M, Zhang SS, Wang YH*, Du GH*. Baicalein attenuates caspase-independent cells death via inhibiting PARP-1 activation and AIF nuclear translocation in cerebral ischemia/ reperfusion rats. Apoptosis, 2020, 25: 354-369.
[10] Cheng X, Yang YL, Li WH, Liu M, Zhang SS, Wang YH*, Du GH*. Dynamic alterations of brain Injury, functional recovery, and metabolites profile after cerebral ischemia/reperfusion in rats contributes to potential biomarkers. J Mol Neurosci, 2020, 70: 667-676.
[11] Cheng X, Yang YL, Li WH, Liu M, Wang YH*, Du GH*. Cerebral ischemia-reperfusion aggravated cerebral infarction injury and possible differential genes identified by RNA-Seq in rats. Brain Res Bull, 2020, 156: 33-42.
[12] Yang YL, Liu M, Cheng X, Li WH, Zhang SS, Wang YH*, Du GH*. Myricitrin blocks activation of NF-κB and MAPK signaling pathways to protect nigrostriatum neuron in LPS-stimulated mice. J Neuroimmunol, 2019, 337:57049.
[13] Li WH, Cheng X, Yang YL, Liu M, Zhang SS, Wang YH*, Du GH*. Kaempferol attenuates neuroinflammation and blood brain barrier dysfunction to improve neurological deficits in cerebral ischemia/reperfusion rats. Brain Res, 2019, 1722: 146361.
[14] Yang YL, Cheng X, Li WH, Liu M, Wang YH*, Du GH*. Kaempferol Attenuates LPS-Induced Striatum Injury in Mice Involving Anti-Neuroinflammation, Maintaining BBB Integrity, and Down-Regulating the HMGB1/TLR4 Pathway. Int J Mol Sci, 2019, 20: 491.
[15] Wang YH*, Yang YL, Cheng X, Zhang J, Li W, Du GH*. Xiao-Xu-Ming decoction extract regulates differentially expressed proteins in the hippocampus after chronic cerebral hypoperfusion. Neural Regen Res, 2019, 14(3): 470-479.
[16] Cheng X, Yang YL, Yang H, Wang YH*, Du GH*. Kaempferol alleviates LPS-induced neuroinflammation and BBB dysfunction in mice via inhibiting HMGB1 release and down-regulating TLR4/MyD88 pathway. Int Immunopharmacol, 2018, 56:29-35.
[17] Yang H, Cheng X, Yang YL, Wang YH*, Du GH*. Ramulus Cinnamomi extract attenuates neuroinflammatory responses via downregulating TLR4/MyD88 signaling pathway in BV2 cells. Neural Regen Res, 2017, 12(11): 1860-1864.