LncRNA AC130710通过miR-129-5P/WNT4轴促进子宫内膜癌细胞增殖和上皮间质转化

目的探讨LncRNA AC130710通过miR-129-5P/WNT4轴对子宫内膜癌细胞（HEC-1A细胞）增殖、凋亡及上皮间质转化（EMT）的影响及机制研究。 方法通过实时荧光定量PCR检测LncRNA AC130710、miR-129-5P和WNT4在子宫内膜癌细胞（HEC-1A细胞）和人子宫内膜上皮细胞（HEEC）中的表达。细胞分别转染（1）siRNA NC、AC130710 siRNA、WNT4 siRNA;（2）inhibitor NC、miR-129-5P inhibitor;（3）pcDNA-3.1 （+）+mimics NC、pcDNA-AC130710+mimics NC、pcDNA-3.1 （+）+miR-129-5P mimics、pcDNA-AC130710+miR-129-5P mimics。MTT实验检测LncRNA AC130710、miR-129-5P和WNT4的表达对HEC-1A细胞增殖能力的影响;Western blot检测LncRNA AC130710、miR-129-5P和WNT4的表达对HEC-1A细胞凋亡相关蛋白B淋巴细胞瘤-2基因相关蛋白X （Bax）、剪切的半胱氨酰天冬氨酸特异性蛋白酶-3 （cleaved caspase-3）、cleaved caspase-9和B淋巴细胞瘤-2基因（Bcl-2）表达的影响;Western blot检测LncRNA AC130710、miR-129-5P和WNT4的表达对HEC-1A细胞EMT的影响。miRanda和双荧光素酶报告基因实验分析LncRNA AC130710和miR-129-5P之间的关系,TargetScan数据库分析miR-129-5P与WNT4的相关性,双荧光素酶报告基因检测miR-129-5P与WNT4的相互作用;RT-qPCR法检测LncRNA AC130710通过miR-129-5P对WNT4表达的影响。两组间比较采用独立样本t检验,多组间比较采用单因素方差分析,两两比较采用LSD-t检验。 结果与HEEC细胞比较,HEC-1A细胞中AC130710表达水平（1.86±0.21比0.85±0.06）、WNT4表达水平（1.88±0.26比1.08±0.12）升高;HEC-1A细胞中miR-129-5P表达水平（0.89±0.16比1.76±0.08）降低。与转染siRNA NC比较,转染AC130710 siRNA细胞内Bax、cleaved caspase-3、cleaved caspase-9、E-cadherin蛋白相对表达水平[（1.37±0.14比0.84±0.21）,（1.08±0.16比0.37±0.07）,（1.26±0.24比0.39±0.06）,（1.87±0.17比1.32±0.26）]上升,Bcl-2、N-cadherin、Snail和Vimentin蛋白相对表达水平[（0.38±0.08比1.18±0.14）,（0.36±0.04比0.85±0.24）,（0.35±0.09比1.12±0.18）,（0.42±0.10比1.26±0.27）]下降;与转染inhibitor NC比较,转染miR-129-5P inhibitor细胞的Bcl-2、N-cadherin、Snail和Vimentin蛋白相对表达水平[（0.98±0.07比0.65±0.08）,（1.39±0.15比0.68±0.09）,（0.95±0.08比0.42±0.06）,（1.16±0.16比0.54±0.02）]上升,Bax、cleaved caspase-3、cleaved caspase-9、E-cadherin蛋白相对表达水平[（0.27±0.09比0.85±0.13）,（0.48±0.05比1.16±0.28）,（0.52±0.14比1.19±0.15）,（0.43±0.09比1.08±0.26）]下降;与转染siRNA NC比较,转染WNT4 siRNA细胞的Bcl-2、N-cadherin、Snail和Vimentin蛋白相对表达水平[（0.23±0.08比0.84±0.12）,（0.28±0.09比1.14±0.17）,（0.42±0.23比1.06±0.15）,（0.35±0.08比1.13±0.08）]降低,Bax、cleaved caspase-3、cleaved caspase-9、E-cadherin蛋白相对表达水平[（0.96±0.12比0.42±0.08）,（1.13±0.25比0.45±0.06）,（1.54±0.23比0.72±0.12）,（1.87±0.24比1.26±0.18）]上升。 结论LncRNA AC130710可通过miR-129-5P/WNT4轴调控子宫内膜癌HEC-1A细胞增殖、凋亡及EMT。     

低强度超声对HeLa肿瘤细胞凋亡的诱导作用及其机制

目的探讨低强度超声在诱导HeLa肿瘤细胞凋亡中的作用及其机制。 方法将体外培养的HeLa肿瘤细胞根据超声干预强度分为阴性对照组（切断电源后给予假的超声干预）和0.5、1.3、2.0 W/cm²超声干预组,分别通过MTT实验测定细胞活力、存活率,HE染色检测细胞形态,细胞凋亡实验检测细胞凋亡率,流式细胞术测定ROS含量及Western blot实验检测caspase-12、survivin和内参蛋白β-actin的表达情况。多组间比较采用单因素方差分析,各个实验组与对照组比较采用Dunnet-t检验。 结果与阴性对照组比较,0.5、1.3、2.0 W/ cm²超声干预组的HeLa肿瘤细胞活力[（99.23±1.56）﹪比（80.52±1.72）﹪、（54.31±1.69）﹪（27.75±1.26）﹪]、细胞存活率[（99.91±1.51）﹪比（76.69±1.92）﹪、（52.57±1.63）﹪、（29.81±1.22）﹪]、survivin蛋白表达（51.19±0.21比43.46±0.34、25.28±0.29、18.32±0.3）均降低,ROS含量（11.21±0.45比24.34±1.23、38.26±2.47、52.18±1.56）,细胞凋亡率[（4.23±1.21）﹪比（24.16±1.91）﹪、（48.34±1.66）﹪、（70.27±0.98）﹪]、caspase-12蛋白表达（13.05±0.21比20.23±0.19、33.17±0.32、41.52±0.21）均升高,差异具有统计学意义（P均< 0.05）。 结论低强度超声可能通过诱导HeLa肿瘤细胞中caspase-12蛋白表达增加和survivin蛋白表达的减少而使HeLa肿瘤细胞发生凋亡。     

lncRNA RPL34-AS1通过靶向调控miR-575表达对卵巢癌SKOV3细胞增殖和凋亡的影响

目的探究RPL34-AS1对卵巢癌细胞增殖、迁移的影响及其作用机制。 方法取对数生长期SKOV3细胞用无血清培养基同步化12 h,将pcDNA、pcDNA-RPL34-AS1、si-NC、si-RPL34-AS1、anti-miR-NC、anti-miR-575转染至SKOV3细胞中,分别记为pcDNA组、pcDNA-RPL34-AS1组、si-NC组、si-RPL34-AS1组、anti-miR-NC组、anti-miR-575组;将pcDNA-RPL34-AS1与miR-NC、miR-575分别共转染至SKOV3细胞中,记为pcDNA-RPL34-AS1+miR-NC组、pcDNA-RPL34-AS1+miR-575组。实时荧光定量PCR （RT-qPCR）检测临床组织标本及转染后各组细胞中RPL34-AS1和miR-575的表达水平;双荧光素酶报告实验检测RPL34-AS1和miR-575的靶向关系;四甲基偶氮唑盐比色法（MTT）检测细胞存活率;流式细胞术检测细胞凋亡;蛋白质印迹（Western blot）法检测细胞周期蛋白D1（Cyclin D1）、细胞周期蛋白依赖性激酶抑制剂1A （p21）、B细胞淋巴瘤/白血病-2 （Bcl-2）、Bcl-2相关X蛋白（Bax）蛋白表达水平。两组间比较采用独立样本t检验,多组间比较采用单因素方差分析,组间两两比较采用LSD-t检验。 结果与癌旁组织相比,卵巢癌组织中RPL34-AS1表达水平降低（1.00±0.08比0.47±0.05）,miR-575表达水平升高（1.01±0.07比3.12±0.28）（P < 0.05）。转染si-RPL34-AS1后,细胞活性升高（48 h：0.68±0.06比0.55±0.05;72 h：0.99±0.08比0.71±0.06）,G1期细胞所占比例降低（13.42±1.38比32.15±2.11）,S期细胞所占比例升高（53.75±5.22比34.69±3.41）,细胞凋亡率降低（4.31±0.42比9.25±0.91）,CyclinD1、Bcl-2表达水平升高（0.92±0.08比0.71±0.07;0.86±0.07比0.61±0.06）,p21、Bax表达水平降低（0.13±0.02比0.29±0.03;0.19±0.02比0.31±0.03） （P均< 0.05）。RPL34-AS1靶向调控miR-575,过表达RPL34-AS1或抑制miR-575后可抑制细胞活性,阻滞细胞周期和促进细胞凋亡。miR-575过表达逆转了RPL34-AS1过表达对卵巢癌SKOV3细胞增殖抑制和凋亡促进的作用。 结论过表达RPL34-AS1可抑制卵巢癌SKOV3细胞增殖,促进细胞凋亡,其机制可能与下调miR-575有关。     

柴胡皂苷D对甲状腺乳头状癌细胞TPC-1生物学行为的影响

目的探讨柴胡皂苷D对体外甲状腺乳头状癌（PTC）细胞TPC-1增殖、侵袭、迁移、活性氧和凋亡的影响。 方法不同浓度（0、5、10、20 μmol/L）柴胡皂苷D干预TPC-1细胞,CCK-8法检测细胞增殖率;Annexin-V-FITC/PI双染试剂盒检测细胞凋亡率;活性氧试剂盒检测细胞活性氧;Transwell小室法检测细胞侵袭、迁移能力;Western blot法检测凋亡蛋白剪切的半胱天冬酶3 （cleaved caspase 3）、B淋巴细胞瘤-2基因（Bcl-2）、Bcl2相关X蛋白（Bax）和侵袭迁移相关蛋白E钙黏蛋白（E-cadherin)和N钙黏蛋白（N-cadherin）及Wnt/β连环蛋白（β-catenin）信号通路相关蛋白Wnt3a和β-catenin的表达量。多组间比较采用单因素方差分析,组间两两比较采用LSD-t检验。 结果与0 μmol/L柴胡皂苷D干预相比,（5、10、20 μmol/L）柴胡皂苷D干预TPC-1细胞存活率[24 h：（88.07±0.75）%、（76.06±0.56）%、（65.80± 1.66）%比（100.00±1.00）%;48 h：（72.40±0.35）%、（52.26± 0.22）%、（41.30±0.17）%比（100.00± 1.53）%;72 h：（56.50±0.22）%、（40.26±0.21）%、（31.10± 0.14）%比（100.00±0.14）%]、细胞侵袭率[（65.43±1.32）%、（49.46±0.31）%、（22.48±0.85）%比（100.00±1.25）%]、迁移率[（67.45±0.96）%、（52.42±0.39）%、（42.12±1.10）%比（100.00±2.00）%]、Bcl-2蛋白表达量（0.51±0.02、0.31±0.02、0.22±0.02比0.62±0.01）、Wnt3a表达量（0.56±0.06、0.37±0.01、0.26±0.02比0.72±0.03）、β-catenin表达量（0.59±0.02、0.40±0.03、0.14±0.03比0.82±0.03）和N-cadherin表达量（0.49±0.05、0.34 ±0.03、0.14± 0.03比0.62±0.05）均降低,细胞活性氧含量增加,凋亡率[（12.36±1.32）%、（23.15±2.27）%、（36.65±3.22）%比（7.32±1.25）%]、Bax蛋白表达量（0.45±0.02、0.51±0.01、0.79±0.02比0.32±0.01）、cleaved caspase-3蛋白表达量（0.26±0.02、0.37±0.02、0.40±0.02比0.13±0.01）和E-cadherin表达量（0.20±0.02、0.37±0.02、0.46±0.05比0.12±0.01）均增加（P均< 0.05）。 结论柴胡皂苷D能够抑制PTC细胞的生物学行为。     

miR-652-3p靶向同源异型核基因1对血管紧张素Ⅱ诱导的心肌细胞凋亡的影响

目的探讨miR-652-3p靶向同源异型核基因1（PRRX1）对血管紧张素Ⅱ（AngⅡ）诱导的心肌细胞凋亡的影响。 方法大鼠心肌细胞H9c2细胞采用正常培养基培养为对照组细胞，用含1 μmol/L AngⅡ的培养基培养为AngⅡ组细胞；分别转染miR-652-3p阳性对照序列（NC）和转染miR-652-3p mimics后用含1 μmol/L AngⅡ的培养基培养为AngⅡ+NC组和AngⅡ+miR-652-3p组细胞；将miR-652-3p mimics分别与PRRX1阳性对照质粒和PRRX1过表达质粒转染至H9c2细胞中用含1 μmol/L AngⅡ的培养基培养，分别为AngⅡ+miR-652-3p+ Vctor组和AngⅡ+miR-652-3p+PRRX1组细胞。实时荧光定量PCR （RT-qPCR）检测H9c2细胞中miR-652-3p表达水平，流式细胞术检测细胞凋亡，用Western blot检测细胞中PRRX1、Bax和Bcl-2蛋白表达水平。双荧光素酶报告基因实验验证H9c2细胞中miR-652-3p与PRRX1调控关系。两组间比较采用独立样本t检验，多组间比较采用单因素方差分析，组间两两比较采用SNK-q检验。 结果与对照组比较，AngⅡ组H9c2细胞中miR-652-3p水平（1.00±0.08比0.21±0.05）、Bcl-2蛋白水平（0.83±0.08比0.40±0.04）均较低，而PRRX1蛋白水平（0.06±0.01比0.41±0.04）、凋亡率（5.02﹪±1.41﹪比25.33﹪±3.75﹪）、Bax蛋白水平（0.46±0.05比0.96±0.10）均较高，差异具有统计学意义（P均< 0.05）。与AngⅡ+NC组比较，AngⅡ+miR-652-3p组H9c2细胞中miR-652-3p的表达水平（0.24±0.06比0.98±0.07）、Bcl-2蛋白水平（0.38±0.04比0.72±0.07）均较高，而PRRX1蛋白水平（0.39±0.04比0.13±0.01）、凋亡率（27.02﹪±4.11﹪比12.19﹪±1.63﹪）、Bax蛋白水平（0.95±0.09比0.53±0.05）均较低，差异具有统计学意义（P均< 0.05）。与AngⅡ+miR-652-3p+Vctor组比较，AngⅡ+miR-652-3p+PRRX1组H9c2细胞凋亡率（12.88﹪±1.84﹪比25.45﹪±3.58﹪）、PRRX1蛋白水平（0.13±0.01比0.35±0.04）和Bax蛋白水平（0.54±0.05比0.82±0.08）均较高，差异具有统计学意义（P均< 0.05），而Bcl-2蛋白表达水平（0.72±0.07比0.46±0.05）降低，差异具有统计学意义（P < 0.05）。 结论AngⅡ能够下调心肌细胞中miR-652-3p的表达，上调miR-652-3p可通过靶向抑制PRRX1的表达减少AngⅡ诱导的H9c2细胞凋亡。     

山杏叶乙酸乙酯提取物调控乳腺癌MCF7细胞增殖和凋亡的机制研究

为探究山杏叶乙酸乙酯提取物对乳腺癌MCF7细胞株增殖和凋亡的影响,本研究采用CCK8法检测山杏叶提取物对MCF7细胞增殖的抑制作用,流式细胞仪检测细胞凋亡率,倒置荧光显微镜和流式细胞仪分别检测胞内活性氧(ROS)的水平变化,RT-PCR检测细胞周期及凋亡相关基因的表达情况,试剂盒检测caspase-3的活性。实验表明,山杏叶提取物可降低MCF7细胞存活率,促进细胞凋亡,增加胞内ROS水平。同时上调和Bax,下调Bcl-2,增强caspase-3活性,并降低CDK4、CyclinE和CyclinD1的表达。综上说明山杏叶提取物可通过调控周期蛋白的表达来抑制MCF7细胞的增殖,并通过caspase途径和提升ROS水平来诱导MCF7细胞的凋亡。     

木犀草素对子痫前期大鼠滋养层细胞凋亡的影响及其机制

目的探讨木犀草素（LUT）对子痫前期（PE）大鼠滋养层细胞凋亡的影响及其机制。 方法取妊娠10 d SD大鼠,按随机数字表法随机分为对照组、模型组、20、40、60 mmol/L LUT （LUT-L、LUT-M、LUT-H）组,每组各12只,模型组和给药组大鼠皮下注射100 mg/（kg·d）亚硝基左旋精氨酸甲酯建立PE大鼠模型,对照组大鼠皮下注射等量生理盐水,每天1次,注射6 d。妊娠16 d的大鼠分别予以20、40、60 mmol/L LUT腹腔注射,对照组、模型组大鼠腹腔注射等量生理盐水,每天1次,注射5 d。测量各组大鼠妊娠10、16、21 d尾动脉血压及24 h尿蛋白水平;妊娠21 d,原位末端标记法（TUNEL）检测滋养层组织细胞凋亡情况,Western blot法检测滋养层组织B淋巴细胞瘤-2 （Bcl-2）、Bcl-2相关X蛋（Bax）、磷脂酰肌醇3-激酶（PI3K）、磷酸化PI3K （p-PI3K）、蛋白激酶B （Akt）、磷酸化AKT （p-Akt）、内皮型一氧化氮合酶（eNOS）和磷酸化eNOS （p-eNOS）蛋白表达量。多组间比较采用单因素方差分析,组间两两比较采用SNK-q检验。 结果妊娠10 d,各组大鼠尾动脉收缩压、舒张压、24 h尿蛋白含量差异无统计学意义;妊娠16 d,与对照组比较,模型组、LUT-L组、LUT-M组、LUT-H组大鼠尾动脉收缩压、舒张压、24 h尿蛋白含量升高（P均< 0.05）;妊娠21 d,与对照组比较,模型组、LUT-L组、LUT-M组、LUT-H组收缩压[（110.33±3.67）比（147.28±4.16）,（131.29±4.31）,（124.46±4.27）,（118.54±4.18）mmHg]、24 h蛋白尿、细胞凋亡率[（1.38±0.34）%,（43.45±3.72）%,（39.21±3.53）%,（27.86±3.41）%,（23.21±3.28）%]和Bax蛋白表达量均升高;Bcl-2、p-PI3K/PI3K （1.06±0.09比0.25±0.02,0.37±0.03,0.57±0.06,0.73±0.08）、p-Akt/Akt（0.87±0.08比0.11±0.01,0.23±0.03,0.56±0.07,0.78±0.06）和p-eNOS/eNOS蛋白表达水平（0.85±0.07比0.09±0.01,0.16±0.02,0.38±0.04,0.69±0.07）均降低（P均< 0.05）。与模型组比较,LUT-L组、LUT-M组、LUT-H组大鼠尾动脉收缩压、舒张压、滋养层组织细胞凋亡率和Bax蛋白表达量降低,Bcl-2、p-PI3K/PI3K、p-Akt/Akt和p-eNOS/eNOS蛋白表达量升高（P均< 0.05）。 结论LUT可抑制PE大鼠滋养层组织细胞凋亡,其机制可能与PI3K/Akt/eNOS信号通路激活,调控凋亡相关蛋白表达有关。     

抗氧化肽SS-31抑制高糖诱导的心肌细胞凋亡

该文探讨了抗氧化肽SS-31对高糖诱导的大鼠心肌细胞凋亡的影响,体外培养大鼠心肌细胞(H9C2),给予高糖(30 mmol/L)进行刺激,并利用抗氧化肽SS-31进行治疗后,采用Western blot检测Bax、Bcl-2、Cleaved caspase-3、Nox1、Nox4和Txnip的表达;利用荧光实时定量PCR(Real-time PCR)检测Bax、Bcl-2、Nox1、Nox4和Txnip mRNA的表达;采用原位缺口末端标记法(TUNEL)观察H9C2细胞凋亡情况;应用MitoSOX~(TM )Red染色检测H9C2细胞线粒体ROS产生情况。结果显示,与正常对照组相比,高糖组H9C2细胞凋亡明显增加,Bax、 Cleaved caspase-3、Nox1、Nox4和Txnip蛋白表达明显上调,Bcl-2蛋白表达减少,线粒体ROS产生增加;SS-31治疗后能够抑制高糖诱导的H9C2细胞的凋亡,下调Bax、Cleaved caspase-3、Nox1、Nox4、Txnip表达,上调Bcl-2表达并减少线粒体ROS的产生。以上研究结果提示,抗氧化肽SS-31抑制高糖诱导的大鼠心肌细胞凋亡的同时抑制Txnip/ROS产生,表明抗氧化肽SS-31可能对糖尿病心肌病变具有一定的改善作用。     

CD47-siRNA通过调控ROS诱导食管癌细胞SEG-1凋亡

目的:探讨CD47-siRNA对食管癌细胞SEG-1凋亡的影响及其机制研究。方法:Western blot法检测食管癌细胞SEG-1中CD47蛋白、促凋亡蛋白Bax和抗凋亡蛋白Bcl-2的表达;CCK-8法检测食管癌细胞SEG-1细胞活力;DCFDA细胞ROS检测试剂盒检测食管癌细胞SEG-1中ROS水平。结果:CD47-siRNA转染组食管癌细胞SEG-1中CD47蛋白明显低于空载对照组(P0.05);CD47-siRNA转染组食管癌细胞SEG-1细胞活力显著低于空载对照组(P0.05);CD47-siRNA转染组食管癌细胞SEG-1中促凋亡蛋白Bax表达显著高于空载对照组(P0.05),抗凋亡蛋白Bcl-2表达低于空载对照组(P0.05);CD47-siRNA转染食管癌细胞SEG-1组ROS水平明显高于空载对照组(P0.05);与CD47-siRNA转染组比较,CAT (ROS抑制剂,5 m M/L, 6 h)预处理增加了细胞活力;与CD47-siRNA转染组比较,CAT (ROS抑制剂,5 m M/L, 6 h)预处理显著降低食管癌细胞SEG-1中Bax蛋白表达以及增加抗凋亡蛋白Bcl-2表达。结论:CD47-siRNA转染通过上调食管癌细胞SEG-1内ROS水平促进食管癌细胞SEG-1凋亡。     

金葡菌通过线粒体途径诱导U937细胞凋亡

目的探讨线粒体凋亡途径在金黄色葡萄球菌（简称金葡菌）诱导人巨噬细胞系U937细胞凋亡中的作用。方法当细胞：细菌为1∶20时分别培养0 min,15 min,30 min,60 min和90 min,采用Western blot法检测胞质细胞色素C的表达及细胞内Bcl-2、Bax、caspase-9和caspase-3的表达。结果随着金葡菌感染时间的延长,胞质细胞色素C和Bax的表达逐渐增加;Bcl-2蛋白的表达逐渐降低;caspase-9和caspase-3的表达逐渐增加。结论金葡菌可通过抑制Bcl-2表达和促进Bax表达引起线粒体细胞色素C释放入胞质,激活caspase-9和caspase-3,促进U937细胞凋亡。     

Hydrogen sulfide prevents formaldehyde-induced neurotoxicity to PC12 cells by attenuation of mitochondrial dysfunction and pro-apoptotic potential

Hydrogen sulfide (H(2)S) has been shown to act as a neuroprotectant and antioxidant. Numerous studies have demonstrated that exposure to formaldehyde (FA) causes neuronal damage and that oxidative stress is one of the most critical effects of FA exposure. Accumulation of FA is involved in the pathogenesis of Alzheimer's disease (AD). The aim of present study is to explore the inhibitory effects of H(2)S on FA-induced cytotoxicity and apoptosis and the molecular mechanisms underlying in PC12 cells. We show that sodium hydrosulfide (NaHS), a H(2)S donor, protects PC12 cells against FA-mediated cytotoxicity and apoptosis and that NaHS preserves the function of mitochondria by preventing FA-induced loss of mitochondrial membrane potential and release of cytochrome c in PC12 cells. Furthermore, NaHS blocks FA-exerted accumulation of intracellular reactive oxygen species (ROS), down-regulation of Bcl-2 expression, and up-regulation of Bax expression. These results indicate that H(2)S protects neuronal cells against neurotoxicity of FA by preserving mitochondrial function through attenuation of ROS accumulation, up-regulation of Bcl-2 level, and down-regulation of Bax expression. Our study suggests a promising future of H(2)S-based preventions and therapies for neuronal damage after FA exposure.     

GDF-15 promotes mitochondrial function and proliferation in neuronal HT22 cells

The neuronal cell line HT22 is an excellent model for studying Parkinson's disease. Growth differentiation factor 15 (GDF15) plays a critical role in Parkinson's disease, but the molecular mechanism involved are not well understood. We constructed the GDF15 overexpression HT22 cells and detected the effects of overexpression of GDF15 on the viability, oxygen consumption, mitochondrial membrane potential of oligomycin-treated HT22 cells. In addition, we used a high-throughput RNA-sequencing to study the lncRNA and mRNA expression profiling and obtained key lncRNAs, mRNA, gene ontology (GO), and Kyoto encyclopedia of genes and genomes (KEGG) pathway. The expression of selected DElncRNAs was validated by quantitative real-time PCR (qRT-PCR). Our results showed that overexpression of GDF15 significantly reversed the cells viability, oxygen consumption, and mitochondrial membrane potential effect caused by oligomycin in HT22 cells. The 1093 DEmRNAs and 395 DElncRNAs in HT22 cells between GDF15-oligomycin non-intervention group and a normal control-oligomycin un-intervention group were obtained, and 394 DEmRNAs and 271 DElncRNAs in HT22 cells between GDF15-oligomycin intervention group and normal control-oligomycin intervention group were identified. Base on the GO and KEGG enrichment analysis of between GDF15-oligomycin intervention group and normal control-oligomycin intervention group, positive regulation of cell proliferation was most significantly enriched GO terms, and Cav1 was enriched in positive regulation of cell proliferation pathway. PI3K-Akt signaling pathway was one significantly enriched pathway in GDF15-oligomycin intervention group. The qRT-PCR results were consistent with RNA-sequencing, generally. GDF15 might promote mitochondrial function and proliferation of HT22 cells by regulating PI3K/Akt signaling pathway. Our study may be helpful in understanding the potential molecular mechanism of GDF15 in Parkinson's disease.     

A Novel Domain of Amino-Nogo-A Protects HT22 Cells Exposed to Oxygen Glucose Deprivation by Inhibiting NADPH Oxidase Activity

This study aimed to investigate the protective effect of the M9 region (residues 290–562) of amino-Nogo-A fused to the human immunodeficiency virus trans-activator TAT in an in vitro model of ischemia–reperfusion induced by oxygen–glucose deprivation (OGD) in HT22 hippocampal neurons, and to investigate the role of NADPH oxidase in this protection. Transduction of TAT-M9 was analyzed by immunofluorescence staining and western blot. The biologic activity of TAT-M9 was assessed by its effects against OGD-induced HT22 cell damage, compared with a mutant M9 fusion protein or vehicle. Cellular viability and lactate dehydrogenase (LDH) release were assessed. Neuronal apoptosis was evaluated by flow cytometry. The Bax/Bcl-2 ratio was determined by western blotting. Reactive oxygen species (ROS) levels and NADPH oxidase activity were also measured in the presence or absence of an inhibitor or activator of NADPH oxidase. Our results confirmed the delivery of the protein into HT22 cells by immunofluorescence and western blot. Addition of 0.4 μmol/L TAT-M9 to the culture medium effectively improved neuronal cell viability and reduced LDH release induced by OGD. The fusion protein also protected HT22 cells from apoptosis, suppressed overexpression of Bax, and inhibited the reduction in Bcl-2 expression. Furthermore, TAT-M9, as well as apocynin, decreased NADPH oxidase activity and ROS content. The protective effects of the TAT-M9 were reversed by TBCA, an agonist of NADPH oxidase. In conclusion, TAT-M9 could be successfully transduced into HT22 cells, and protected HT22 cells against OGD damage by inhibiting NADPH oxidase-mediated oxidative stress. These findings suggest that the TAT-M9 protein may be an efficient therapeutic agent for neuroprotection.     

Chebulinic acid attenuates glutamate-induced HT22 cell death by inhibiting oxidative stress,calcium influx and MAPKs phosphorylation

Glutamate-induced excitotoxicity and oxidative stress is a major causative factor in neuronal cell death in acute brain injuries and chronic neurodegenerative diseases. The prevention of oxidative stress is a potential therapeutic strategy. Therefore, in the present study, we aimed to examine a potential therapeutic agent and its protective mechanism against glutamate-mediated cell death. We first found that chebulinic acid isolated from extracts of the fruit of Terminalia chebula prevented glutamate-induced HT22 cell death. Chebulinic acid significantly reduced intracellular reactive oxygen species (ROS) production and Ca²⁺ influx induced by glutamate. We further demonstrated that chebulinic acid significantly decreased the phosphorylation of mitogen-activated protein kinases (MAPKs), including ERK1/2, JNK, and p38, as well as inhibiting pro-apoptotic Bax and increasing anti-apoptotic Bcl-2 protein expression. Moreover, we demonstrated that chebulinic acid significantly reduced the apoptosis induced by glutamate in HT22 cells. In conclusion, our results in this study suggest that chebulinic acid is a potent protectant against glutamate-induced neuronal cell death via inhibiting ROS production, Ca²⁺ influx, and phosphorylation of MAPKs, as well as reducing the ratio of Bax to Bcl-2, which contribute to oxidative stress-mediated neuronal cell death.     

Huperzine A Alleviates Oxidative Glutamate Toxicity in Hippocampal HT22 Cells via Activating BDNF/TrkB-Dependent PI3K/Akt/mTOR Signaling Pathway

Oxidative glutamate toxicity is involved in diverse neurological disorders including epilepsy and ischemic stroke. Our present work aimed to assess protective effects of huperzine A (HupA) against oxidative glutamate toxicity in a mouse-derived hippocampal HT22 cells and explore its potential mechanisms. Cell survival and cell injury were analyzed by MTT method and LDH release assay, respectively. The production of ROS was measured by detection kits. Protein expressions of BDNF, phosphor-TrkB (p-TrkB), TrkB, phosphor-Akt (p-Akt), Akt, phosphor-mTOR (p-mTOR), mTOR, phosphor-p70s6 (p-p70s6) kinase, p70s6 kinase, Bcl-2, Bax, and β-actin were assayed via Western blot analysis. Enzyme-linked immunosorbent assay was employed to measure the contents of nerve growth factor, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and neurotrophin-4 (NT-4). Our findings illustrated 10 μM HupA for 24 h significantly protected HT22 from cellular damage and suppressed the generation of ROS. Additionally, after treating with LY294002 or wortmannin [the selective inhibitors of phosphatidylinositol 3 kinase (PI3K)], HupA dramatically prevented the down-regulations of p-Akt, p-mTOR, and p-p70s6 kinase in HT22 cells under oxidative toxicity. Furthermore, it was observed that the protein levels of BDNF and p-TrkB were evidently enhanced after co-treatment with HupA and glutamate in HT22 cells. The elevations of p-Akt and p-mTOR were abrogated under toxic conditions after blockade of TrkB by TrkB IgG. Cellular apoptosis was significantly suppressed (decreased caspase-3 activity and enhanced Bcl-2 protein level) after HupA treatment. It was concluded that HupA attenuated oxidative glutamate toxicity in murine hippocampal HT22 cells via activating BDNF/TrkB-dependent PI3K/Akt/mTOR signaling pathway.     

下调TLR4对LPS诱导的支气管上皮16HBE细胞损伤的影响及其机制

目的探讨TLR4对脂多糖（LPS）诱导的支气管上皮16HBE细胞损伤的影响及其机制。 方法将3条siRNA-TLR4-1、siRNA-TLR4-2和siRNA-TLR4-3转染至16HBE细胞中,筛选出最佳的siRNA-TLR4干扰序列进行实验。实验分为对照组（未处理）、LPS组（给予50 μg/ml LPS处理）、LPS+siNC组（转染siRNA-NC后给予50 μg/ml LPS处理）和LPS+siTLR4组（分别转染设计的3条siRNA-TLR4后给予50 μg/ml LPS处理）,采用RT-PCR检测TLR4、IL-6和TNF-α mRNA的表达,MTT法检测细胞活力,流式细胞仪检测细胞凋亡率,Western Blot检测Bcl-2、Bax、Cleaved Caspase-3、NF-κB p65和IκBα蛋白的表达。多组间比较使用单因素方差分析,组间多重比较采用SNK-q,两组间比较采用独立样本t检验。 结果LPS组与LPS+siTLR4-2组TLR4 mRNA（2.05±0.12,3.28±0.15）和蛋白表达（0.38±0.03,0.77±0.05）比较,差异具有统计学意义（t?= 11.091,11.585,P均< 0.001）;LPS组与LPS+siTLR4-3组TLR4 mRNA（1.39±0.09,3.28±0.15）和蛋白表达（0.31±0.02,0.77±0.05）比较,差异具有统计学意义（t?= 20.857,12.650,P均?< 0.001）且siRNA-TLR4-3的效果最为显著。与对照组相比,LPS组、LPS+siNC组和LPS+siTLR4组细胞中IL-6 mRNA（11.42±1.05,11.38±1.34,6.22±0.35,0.97±0.06,F?= 98.803,P均< 0.01）、TNF-α mRNA（15.76±1.12,15.69±0.87,7.54±0.41,1.03±0.09,F?= 278.064,P均< 0.01）、Cleaved Caspase-3蛋白（0.75±0.06,0.77±0.05,0.38±0.03,0.13±0.02,F?= 154.851,P均< 0.01）、Bax蛋白（0.48±0.05,0.52±0.05,0.33±0.02,0.11±0.02,F?= 71.310,P均< 0.01）、NF-κBp65蛋白（0.64±0.05,0.67±0.05,0.45±0.04,0.28±0.02,F?= 56.571,P?均?< 0.01）的表达水平和细胞凋亡率[（21.36±2.85）﹪,（20.94±3.22）﹪,（13.08±1.16）?﹪,（7.25±1.28）﹪,F?= 25.685,P均< 0.01]均明显升高,而细胞活力（0.53±0.04,0.51±0.04,0.78±0.06,1.15±0.08,F?= 80.811,P均< 0.01）和Bcl-2蛋白（0.28±0.03,0.25±0.03,0.40±0.03,0.69±0.06,F?= 76.762,P均< 0.01）、IκBα蛋白（0.38±0.03,0.35±0.03,0.44±0.03,0.72±0.06,F?= 53.635,P均< 0.01）的表达水平均明显降低;与LPS组相比,LPS+siTLR4组中IL-6 mRNA、TNF-α mRNA、Cleaved Caspase-3蛋白、Bax蛋白、NF-κBp65蛋白的表达水平和细胞凋亡率均明显降低,差异有统计学意义（t = 8.138,11.937,9.553,4.825,5.140,4.661,P均< 0.01）,而细胞活力和Bcl-2蛋白、IκBα蛋白的表达水平均明显升高,差异有统计学意义（t = 6.005,4.899,3.674,P < 0.05）,而LPS组和LPS+siNC组间差异无统计学意义（P > 0.05）。 结论下调TLR4可通过抑制NF-κB通路激活抑制LPS诱导的细胞凋亡和炎症反应减轻16HBE细胞损伤。     

Isoliquiritigenin isolated from Glycyrrhiza uralensis protects neuronal cells against glutamate-induced mitochondrial dysfunction

Glutamate-mediated excitotoxicity, which is associated with reactive oxygen species (ROS), is hypothesized to be a major contributor to pathological cell death in the mammalian central nervous system, and to be involved in many acute and chronic brain diseases. Here, we showed that isoliquiritigenin (ISL) isolated from Glycyrrhiza uralensis (Gu), one of the most frequently prescribed oriental herbal medicines, protected HT22 hippocampal neuronal cells from glutamate-induced oxidative stress. In addition, we clarified the molecular mechanisms by which it protects against glutamate-induced neuronal cell death. ISL reversed glutamate-induced ROS production and mitochondrial depolarization, as well as glutamate-induced changes in expression of the apoptotic regulators Bcl-2 and Bax. Pretreatment of HT22 cells with ISL suppresses the release of apoptosis-inducing factor from mitochondria into the cytosol. Taken together, our results suggest that ISL may protect against mitochondrial dysfunction by limiting glutamate-induced oxidative stress. In conclusion, our results demonstrated that ISL isolated from Gu has protective effects against glutamate-induced mitochondrial damage and hippocampal neuronal cell death. We expect ISL to be useful in the development of drugs to prevent or treat neurodegenerative diseases.