[12]  GONG Z，PAN J R，SHEN Q Y，et al. Mitochondrial dys‐  [24]  GUO S H，WANG R M，HU J W，et al. Photobiomodula‐
              function induces NLRP3 inflammasome activation during   tion  promotes  hippocampal  CA1  NSC  differentiation  to‐
              cerebral ischemia/reperfusion injury[J]. J Neuroinflamma‐  ward  neurons  and  facilitates  cognitive  function  recovery
              tion，2018，15（1）：242.                                involving  NLRP3  inflammasome  mitigation  following
          [13]  MATA-MARTÍNEZ  E，DÍAZ-MUÑOZ  M，VÁZQUEZ-           global  cerebral  ischemia[J].  Front  Cell  Neurosci，2021，
              CUEVAS  F  G.  Glial  cells  and  brain  diseases：inflamma‐  15：731855.
              somes as relevant pathological entities[J]. Front Cell Neu‐  [25]  ZHENG W X，HE W Q，ZHANG Q R，et al. Baicalin in‐
              rosci，2022，16：929529.                               hibits NLRP3 inflammasome activity via the AMPK sig‐
          [14]  JAYARAJ R L，AZIMULLAH S，BEIRAM R，et al. Neu‐      naling pathway to alleviate cerebral ischemia-reperfusion
              roinflammation：friend  and  foe  for  ischemic  stroke[J].  J   injury[J]. Inflammation，2021，44（5）：2091-2105.
              Neuroinflammation，2019，16（1）：142.              [26]  GUO H H，ZHU L L，TANG P P，et al. Carthamin yellow
          [15]  FRANKE M，BIEBER M，KRAFT P，et al. The NLRP3        improves  cerebral  ischemia-reperfusion  injury  by  atte-
              inflammasome  drives  inflammation  in  ischemia/reperfu‐  nuating inflammation and ferroptosis in rats[J]. Int J Mol
              sion injury after transient middle cerebral artery occlusion   Med，2021，47（4）：52.
              in mice[J]. Brain Behav Immun，2021，92：223-233.  [27]  YU L，ZHANG Y Y，CHEN Q Q，et al. Formononetin pro‐
          [16]  BELLUT  M，BIEBER  M，KRAFT  P，et  al.  Delayed     tects  against  inflammation  associated  with  cerebral
              NLRP3  inflammasome  inhibition  ameliorates  subacute   ischemia-reperfusion injury in rats by targeting the JAK2/
              stroke progression in mice[J]. J Neuroinflammation，2023，  STAT3 signaling pathway[J]. Biomedecine Pharmacother，
              20（1）：4.                                            2022，149：112836.
          [17]  LONG Y，LI X Q，DENG J，et al. Modulating the polariza‐  [28]  补娟，纪国庆，叶勒丹·马汉，等 . 刺槐素通过自噬调控
              tion phenotype of microglia：a valuable strategy for cen‐  ROS/NLRP3信号通路对脑缺血再灌注损伤发挥保护作
              tral  nervous  system  diseases[J]. Ageing  Res  Rev，2024，  用[J]. 中风与神经疾病杂志，2023，40（2）：99-102.
              93：102160.                                          BU  J，JI  G  Q，Yeledan·Mahan，et  al.  Acacetin  protects
          [18]  YE Y  Z，JIN  T，ZHANG  X，et  al.  Meisoindigo  protects   against cerebral ischemia-reperfusion injury by regulating
              against  focal  cerebral  ischemia-reperfusion  injury  by  in‐  ROS/NLRP3 signaling pathway via autophagy[J]. J Apop-
              hibiting  NLRP3  inflammasome  activation  and  regulating   lexy Nerv Dis，2023，40（2）：99-102.
              microglia/macrophage polarization via TLR4/NF-κB sig‐  [29]  CHEN Y，LI H Z，YANG Y，et al. Polygalasaponin F ame‐
              naling pathway[J]. Front Cell Neurosci，2019，13：553.  liorates  middle  cerebral  artery  occlusion-induced  focal
          [19]  PAN  J  R，PENG  J  L，LI  X  P，et  al.  Transmission  of   ischemia/reperfusion  injury  in  rats  through  inhibiting
              NLRP3-IL-1β  signals  in  cerebral  ischemia  and  reperfu‐  TXNIP/NLRP3  signaling  pathway[J].  J  Neuroimmunol，
              sion injury：from microglia to adjacent neuron and endo‐  2024，387：578281.
              thelial cells via IL-1β/IL-1R1/TRAF6[J]. Mol Neurobiol，  [30]  WANG L L，LIU C W，WANG L L，et al. Astragaloside
              2023，60（5）：2749-2766.                               Ⅳ mitigates cerebral ischaemia-reperfusion injury via in‐
          [20]  YANG Y，ROSENBERG G A. Matrix metalloproteinases   hibition of P62/Keap1/Nrf2 pathway-mediated ferroptosis
              as therapeutic targets for stroke[J]. Brain Res，2015，1623：  [J]. Eur J Pharmacol，2023，944：175516.
              30-38.                                         [31]  LUO J，CHEN J L，YANG C H，et al. 6-gingerol protects
          [21]  YANG F，WANG Z Y，WEI X B，et al. NLRP3 deficiency   against cerebral ischemia/reperfusion injury by inhibiting
              ameliorates neurovascular damage in experimental ische-  NLRP3  inflammasome  and  apoptosis  via  TRPV1/FAF1
              mic stroke[J]. J Cereb Blood Flow Metab，2014，34（4）：  complex dissociation-mediated autophagy[J]. Int Immuno‐
              660-667.                                            pharmacol，2021，100：108146.
          [22]  HOFFMANN C J，HARMS U，REX A，et al. Vascular sig‐  [32]  RAN Y Y，SU W，GAO F H，et al. Curcumin ameliorates
              nal  transducer  and  activator  of  transcription-3  promotes   white matter injury after ischemic stroke by inhibiting mi‐
              angiogenesis and neuroplasticity long-term after stroke[J].   croglia/macrophage pyroptosis through NF-κB suppres‐
              Circulation，2015，131（20）：1772-1782.                 sion  and  NLRP3  inflammasome  inhibition[J].  Oxid  Med
          [23]  LI Y P，LIANG W Y，GUO C J，et al. Renshen shouwu    Cell Longev，2021，2021：1552127.
              extract enhances neurogenesis and angiogenesis via inhibi‐  [33]  XU Y W，GAO X M，WANG L，et al. Bakuchiol amelio‐
              tion of TLR4/NF-κB/NLRP3 signaling pathway following   rates  cerebral  ischemia-reperfusion  injury  by  modulating
              ischemic stroke in rats[J]. J Ethnopharmacol，2020，253：  NLRP3  inflammasome  and  Nrf2  signaling[J].  Respir
              112616.                                             Physiol Neurobiol，2021，292：103707.


          中国药房  2025年第36卷第2期                                                 China Pharmacy  2025 Vol. 36  No. 2    · 249 ·