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Keyword [HT22 Cells]
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1. Nicotine Attenuates Aβ1-42 Neurotoxicity By Activating Cannabinoid Receptors
2. Hydrogen Sulfied Inhibits Homocysteine-induced Cell Senescence In HT22 Cells By Up-regulating SIRT1
3. OGD Induced DsRNA Activating NLRP3 Signaling Pathway And Its Related Inflammatory Factor In The Role Of Brain Damage Mechanism
4. Aβ25-35 Led HT22 Cells In The Endoplasmic Reticulum Stress And Protective Effect Of TSG
5. Study On Intervention Effects Of Kinetin Against Glutamate Induced Oxidative Damage In HT22 Cells And Related Mechanism
6. The Effect Of Oxidative Damage On Golgi And Rab30 In HT22 Cells
7. The Morphological Alterations Of Golgi Apparatus And Intervention Effects After Oxygen-glucose Deprivation Followed By Reperfusion In HT22 Cells
8. Hydrogen Sulfide Inhibits Homocysteine-induced Autophagy In HT22 Cells Via Upregulation Of The BDNG-TrkB Pathway
9. Hydrogen Sulfide Inhibits Formaldehyde-Induced Cellular Senescence In HT22 Cells Via Upregulation Of Leptin Signaling Pathway
10. The Effects Of Chloroquine Inhibited Autophagy On Hippocampal Neuron(HT22 Cells) Exposed To Hypoxia-reoxygenation Injury
11. Effect Of The EphB2 On A?25-35-induced Autophagy And Apoptosis In Mouse HT22 Cells
12. Exendin-4 Can Improve A?31-35 Induced Per2 Abnormal Expression In HT22 Cells And Its Mechanism
13. Exendin-4 Improves Abnormal Expression Of Per1 Induced By A?31-35 Via Antagonizing Calcium Overload In HT22 Cells
14. Hydrogen Sulfide Inhibits High Glucose-induced Senescence Of HT22 Cells Via Improvement Of Autophagic Flux By Upregulation Of SIRT1
15. Spermidine Protects Mouse Hippocampal Neurons HT22 Cells Against High Glucose-induced Cytotoxicity By Upregulation Of Cannabinoid Receptor 1
16. The Mechanism Of Autophagy Activation Induced By Sphingosine Kinase 2 In Neural Cells
17. The Neuroprotection And Mechanism Of TSA Combined With BMSCs On Spinal Cord Injury Mice
18. Protective Effect Of Flavonoid Components Extract From Diopyros Kaki On Cell Injury Induced By OGD/R In HT22 Cells And Its Mechanism
19. Spermidine Alleviates High Glucose-induced Endoplasmic Reticulum Stress In HT22 Cells By Upregulation Of GDF11
20. Formaldehyde Induces Ferroptosis In HT22 Cells By Upregulation Of Warburg Effect
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