Review Article
The Beneficial Roles of SIRT1 in Neuroinflammation-Related Diseases
Table 6
Synthetic drugs and natural compounds regulate traumatic brain injury by involving in SIRT1 in animal models.
| Chemical agents | Models | Involved pathway | Effect | Reference |
| Resveratrol | TBI rats | SIRT1/NLRP3 inflammasome | Anti-inflammatory effects | Zou et al. [122] | Resveratrol | TBI mice | SIRT1/MAPK | Suppression of the astrocyte activation | Li et al. [126] | Resveratrol | TBI mice | SIRT1/autophagy | Neuroprotective effect | Zhang et al. [143] | Sirtinol | TBI rats | SIRT1/p38 | Exacerbations of neuronal damage | Yang et al. [130] | Salermide | TBI mice | SIRT1/ERK1/2 | Promotion of apoptotic neuron | Zhao et al. [131] | Berberine | TBI mice | SIRT1/p38 | Neuroprotective effect | Wang and Zhang [144] | Polydatin | TBI rats | SIRT1/p38/p-PERK/XBP-1/ATF6 | Antiapoptotic effects | Li et al. [145] | ω-3 PUFA | TBI rats | SIRT1/beclin-1 | Antiapoptotic effects | Chen et al. [146] | ω-3 PUFA | TBI rats | SIRT1/HMGB1/NF-κB | Anti-inflammatory effects | Chen et al. [147] |
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