药学与临床研究
藥學與臨床研究
약학여림상연구
PHARMACEUTICAL AND CLINICAL RESEARCH
2015年
4期
341-343
,共3页
孙晓茹%张慧%杨娇娇%纪木火%吴晶%杨建军
孫曉茹%張慧%楊嬌嬌%紀木火%吳晶%楊建軍
손효여%장혜%양교교%기목화%오정%양건군
线粒体%抗氧化剂%异氟醚%脑源性神经营养因子%认知
線粒體%抗氧化劑%異氟醚%腦源性神經營養因子%認知
선립체%항양화제%이불미%뇌원성신경영양인자%인지
Mitochondria%Antioxidant%Isoflurane%Brain-derived neurotrophic factor%Cognition
目的:观察线粒体抗氧化肽 SS-31对异氟醚麻醉小鼠脑源性神经营养因子(BDNF)信号通路及认知功能的影响。方法:老年雄性C57BL/6小鼠42只随机均分为3组(n=14):氧气+生理盐水(Con)组、异氟醚+生理盐水(Iso)组和异氟醚+SS-31(SS-31)组,分别于氧气或异氟醚吸入前30 min腹腔注射等容生理盐水或SS-31(5 mg·kg-1)。气体吸入2 h后各组取6只小鼠检测海马组织中活性氧自由基(ROS)、三磷酸腺苷(ATP)、BDNF、酪氨酸激酶B 受体(TrkB)、磷酸化TrkB(p-TrkB)和磷酸化环磷酸腺苷反应元件结合蛋白(p-CREB)水平;24 h后各组余8只小鼠行旷场实验和条件恐惧性实验。结果:与Iso组比较,SS-31组ROS水平降低, ATP、BDNF、p-TrkB和p-CREB水平升高,24 h场景实验僵直时间增加(P<0.05)。结论:SS-31可改善异氟醚麻醉所致小鼠认知功能损伤,这可能与其清除线粒体内ROS,增加ATP产生,激活BDNF通路有关。
目的:觀察線粒體抗氧化肽 SS-31對異氟醚痳醉小鼠腦源性神經營養因子(BDNF)信號通路及認知功能的影響。方法:老年雄性C57BL/6小鼠42隻隨機均分為3組(n=14):氧氣+生理鹽水(Con)組、異氟醚+生理鹽水(Iso)組和異氟醚+SS-31(SS-31)組,分彆于氧氣或異氟醚吸入前30 min腹腔註射等容生理鹽水或SS-31(5 mg·kg-1)。氣體吸入2 h後各組取6隻小鼠檢測海馬組織中活性氧自由基(ROS)、三燐痠腺苷(ATP)、BDNF、酪氨痠激酶B 受體(TrkB)、燐痠化TrkB(p-TrkB)和燐痠化環燐痠腺苷反應元件結閤蛋白(p-CREB)水平;24 h後各組餘8隻小鼠行曠場實驗和條件恐懼性實驗。結果:與Iso組比較,SS-31組ROS水平降低, ATP、BDNF、p-TrkB和p-CREB水平升高,24 h場景實驗僵直時間增加(P<0.05)。結論:SS-31可改善異氟醚痳醉所緻小鼠認知功能損傷,這可能與其清除線粒體內ROS,增加ATP產生,激活BDNF通路有關。
목적:관찰선립체항양화태 SS-31대이불미마취소서뇌원성신경영양인자(BDNF)신호통로급인지공능적영향。방법:노년웅성C57BL/6소서42지수궤균분위3조(n=14):양기+생리염수(Con)조、이불미+생리염수(Iso)조화이불미+SS-31(SS-31)조,분별우양기혹이불미흡입전30 min복강주사등용생리염수혹SS-31(5 mg·kg-1)。기체흡입2 h후각조취6지소서검측해마조직중활성양자유기(ROS)、삼린산선감(ATP)、BDNF、락안산격매B 수체(TrkB)、린산화TrkB(p-TrkB)화린산화배린산선감반응원건결합단백(p-CREB)수평;24 h후각조여8지소서행광장실험화조건공구성실험。결과:여Iso조비교,SS-31조ROS수평강저, ATP、BDNF、p-TrkB화p-CREB수평승고,24 h장경실험강직시간증가(P<0.05)。결론:SS-31가개선이불미마취소치소서인지공능손상,저가능여기청제선립체내ROS,증가ATP산생,격활BDNF통로유관。
Objective: To observe the effects of antioxidant SS-31 on brain-derived neurotrophic factor (BDNF) pathway and cognitive function in aged mice after isoflurane anesthesia. Methods: Forty-two old male C57BL/6 mice were randomly divided into three groups (n=14): oxygen + saline group (Con group), isoflurane + saline group (Iso group), and isoflurane + SS-31 group (SS-31 group). SS-31 (5 mg·kg-1) or normal saline was intraperitoneally administered with a volume of 0.4 mL·kg-1 30 min before oxygen or isoflurane inhalation. After two hours of gas inhalation, six mice in each group were immediately decapitat-ed. The hippocampus was rapidly removed to determine the level of reactive oxygen species (ROS) and adenosine triphosphate (ATP), and measure the content of BDNF, tropomyosin receptor kinase B (TrkB), p-TrkB and p-CREB (cAMP response element-binding protein). The other eight mice in each group were used for open field test and fear conditioning test 24 hours after the experiment. Results: Compared with the Iso group, the level of ROS was decreased while the level of ATP, the content of BDNF, p-TrkB and p-CREB, and the freezing time to context were increased in the SS-31 group (P<0.05). Conclusion: Mito-chondrial antioxidant SS-31 scavenges mitochondrial ROS, increases ATP, facilitates the regulation of BDNF signaling pathway, and attenuates isoflurane-induced cognition impairments.
