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AMPK信号通路在小鼠急性肾损伤发生中的作用 被引量:1
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作者 毛艳 卢丽 +1 位作者 肖辉 刘潇 《临床输血与检验》 CAS 2021年第4期446-449,共4页
目的探讨磷酸腺苷激活蛋白酶(adenosine phosphate activating protease,AMPK)信号通路在小鼠急性肾损伤发生中的作用。方法SPF级BALB/c雄性小鼠(48只)随机分为两组,对照组与实验组各24只。实验组采用阿德福韦酯40 mg/kg灌胃处理,1次/周... 目的探讨磷酸腺苷激活蛋白酶(adenosine phosphate activating protease,AMPK)信号通路在小鼠急性肾损伤发生中的作用。方法SPF级BALB/c雄性小鼠(48只)随机分为两组,对照组与实验组各24只。实验组采用阿德福韦酯40 mg/kg灌胃处理,1次/周,持续2次;对照组用等量等渗盐水进行灌胃处理。采用全自动生化分析仪测定血清尿素氮(BUN)与肌酐(SCr)含量,采用Western blotting检测肾组织中AMPK、Keap-1的表达,同时进行组织病理学评分。结果处理2周、4周、6周后,实验组的血清BUN与SCr水平都显著高于对照组(P<0.05);实验组的肾脏组织病理学评分都显著高于对照组(P<0.05);实验组的肾脏AMPK与Keap-1蛋白相对表达水平都显著高于对照组(P<0.05)。结论小鼠急性肾损伤可激活AMPK信号通路,诱导AMPK与Keap-1表达量上升,导致肾脏组织损伤与肾功能下降。 展开更多
关键词 小鼠 急性肾损伤 磷酸腺苷激活蛋白酶 肾功能
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Study on the relationship between relieving energy crisis in myofascial trigger points with An-Pressing manipulation and AMPK/PGC-1α pathway activation 被引量:1
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作者 KUANG Xiaoxia LI Wu +4 位作者 JIANG Quanrui WEI Wei LI Tielang LI Jiangshan YANG Yanping 《Journal of Acupuncture and Tuina Science》 CSCD 2022年第4期257-264,共8页
Objective To explore the mechanism of An-Pressing manipulation in relieving energy crisis in chronic myofascial trigger points(MTrPs)by observing the effects of An-Pressing manipulation on adenosine triphosphate(ATP),... Objective To explore the mechanism of An-Pressing manipulation in relieving energy crisis in chronic myofascial trigger points(MTrPs)by observing the effects of An-Pressing manipulation on adenosine triphosphate(ATP),adenosine 5′-monophosphate(AMP)-activated protein kinase(AMPK)/peroxisome proliferator-activated receptorγcoactivator 1α(PGC-1α)pathway and mitochondrial ultrastructure of skeletal muscle cells in MTrPs rats.Methods Forty-eight male Sprague-Dawley rats were randomly divided into a blank group,a model group,a lidocaine group,and an An-Pressing manipulation group,with 12 rats in each group.The model group,lidocaine group and An-Pressing manipulation group were used to replicate the MTrPs rat model by blunt shock and centrifugal motion method.After modeling,the An-Pressing manipulation group was subjected to 7 times An-Pressing manipulation,once every other day;the lidocaine group was treated with 3 times of injection of lidocaine at the MTrPs,once every 6 d.The blank group and the model group were fed normally without intervention.After the intervention,local muscle tissue was taken to detect the content of ATP and the expression of AMPK,phosphorylated AMPK(phospho-AMPK),PGC-1α,and glucose transporter 4(GluT4),and the ultrastructure of mitochondria was observed under an electron microscope.Results Compared with the blank group,the ATP content in the model group was decreased(P<0.05),the protein expression levels of phospho-AMPK,PGC-1α,and GluT4 and the ratio of phospho-AMPK to AMPK were decreased(P<0.05);under the electron microscope,the number of mitochondria decreased,and they were deformed,small in volume,and had deformed cristae.Compared with the model group,the ATP contents in the An-Pressing manipulation group and the lidocaine group were increased(P<0.05),and the protein expression levels of phospho-AMPK,PGC-1α,and GluT4 and the ratio of phospho-AMPK to AMPK were increased(P<0.05);under the electron microscope,the number of mitochondria increased,the shape and size of the mitochondria were basically normal,and the cristae could be seen.Compared with the lidocaine group,phospho-AMPK and the ratio of phospho-AMPK to AMPK in the An-Pressing manipulation group were increased(P<0.05);under the electron microscope,the numbers of mitochondria were similar,and the shape and size of the mitochondria were basically normal without swelling,and the cristae could be observed.Conclusion An-Pressing manipulation can increase the ATP content in MTrPs tissue,improve the expression levels of PGC-1α and GluT4 proteins and the ratio of phospho-AMPK to AMPK;its mechanism may relate to the activation of AMPK/PGC-1α signaling pathway to promote the repair of mitochondrial damages. 展开更多
关键词 TUINA MASSAGE An-Pressing Manipulation Myofascial Trigger Point Energy Metabolism AMP-Activated Protein Kinases Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-α Signal Transduction
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