Long noncoding RNAs HAND2-AS1 ultrasound microbubbles suppress hepatocellular carcinoma progression by regulating the miR-873-5p/tissue inhibitor of matrix metalloproteinase-2 axis

BACKGROUND Increasing data indicated that long noncoding RNAs(lncRNAs)were directly or indirectly involved in the occurrence and development of tumors,including hepatocellular carcinoma(HCC).Recent studies had found that the expression of lncRNA HAND2-AS1 was downregulated in HCC tissues,but its role in HCC progression is unclear.Ultrasound targeted microbubble destruction mediated gene transfection is a new method to overexpress genes.AIM To study the role of ultrasound microbubbles(UTMBs)mediated HAND2-AS1 in the progression of HCC,in order to provide a new reference for the treatment of HCC.METHODS In vitro,we transfected HAND2-AS1 siRNA into HepG2 cells by UTMBs,and detected cell proliferation,apoptosis,invasion and epithelial-mesenchymal transition(EMT)by cell counting kit-8 assay,flow cytometry,Transwell invasion assay and Western blotting,respectively.In addition,we transfected miR-837-5p mimic into UTMBs treated cells and observed the changes of cell behavior.Next,the UTMBs treated HepG2 cells were transfected together with miR-837-5p mimic and tissue inhibitor of matrix metalloproteinase-2(TIMP2)overexpression vector,and we detected cell proliferation,apoptosis,invasion and EMT.In vivo,we established a mouse model of subcutaneous transplantation of HepG2 cells and observed the effect of HAND2-AS1 silencing on tumor formation ability.RESULTS We found that UTMBs carrying HAND2-AS1 restricted cell proliferation,invasion,and EMT,encouraged apoptosis,and HAND2-AS1 silencing eliminated the effect of UTMBs.Additionally,miR-873-5p targets the gene HAND2-AS1,which also targets the 3’UTR of TIMP2.And miR-873-5p mimic counteracted the impact of HAND2-AS1.Further,miR-873-5p mimic solely or in combination with pcDNA-TIMP2 had been transformed into HepG2 cells exposed to UTMBs.We discovered that TIMP2 reversed the effect of miR-873-5p mimic caused by the blocked signalling cascade for matrix metalloproteinase(MMP)2/MMP9.In vivo results showed that HAND2-AS1 silencing significantly inhibited tumor formation in mice.CONCLUSION LncRNA HAND2-AS1 promotes TIMP2 expression by targeting miR-873-5p to inhibit HepG2 cell growth and delay HCC progression.

The miR-9-5p/CXCL11 pathway is a key target of hydrogen sulfide-mediated inhibition of neuroinflammation in hypoxic ischemic brain injury

We previously showed that hydrogen sulfide(H2S)has a neuroprotective effect in the context of hypoxic ischemic brain injury in neonatal mice.However,the precise mechanism underlying the role of H2S in this situation remains unclear.In this study,we used a neonatal mouse model of hypoxic ischemic brain injury and a lipopolysaccharide-stimulated BV2 cell model and found that treatment with L-cysteine,a H2S precursor,attenuated the cerebral infarction and cerebral atrophy induced by hypoxia and ischemia and increased the expression of miR-9-5p and cystathionineβsynthase(a major H2S synthetase in the brain)in the prefrontal cortex.We also found that an miR-9-5p inhibitor blocked the expression of cystathionineβsynthase in the prefrontal cortex in mice with brain injury caused by hypoxia and ischemia.Furthermore,miR-9-5p overexpression increased cystathionine-β-synthase and H2S expression in the injured prefrontal cortex of mice with hypoxic ischemic brain injury.L-cysteine decreased the expression of CXCL11,an miR-9-5p target gene,in the prefrontal cortex of the mouse model and in lipopolysaccharide-stimulated BV-2 cells and increased the levels of proinflammatory cytokines BNIP3,FSTL1,SOCS2 and SOCS5,while treatment with an miR-9-5p inhibitor reversed these changes.These findings suggest that H2S can reduce neuroinflammation in a neonatal mouse model of hypoxic ischemic brain injury through regulating the miR-9-5p/CXCL11 axis and restoringβ-synthase expression,thereby playing a role in reducing neuroinflammation in hypoxic ischemic brain injury.

丹参酮ⅡA通过miR-155-5p激活SIRT1-AMPK通路改善H9c2心肌细胞缺血/再灌注损伤

目的:探究丹参酮ⅡA(TⅡA)通过miR-155-5p激活沉默信息调节因子1(SIRT1)-腺苷酸活化蛋白激酶(AMPK)通路改善H9c2心肌细胞缺血/再灌注(I/R)损伤的机制。方法:体外培养H9c2细胞并建立I/R损伤模型,造模完成后将H9c2细胞随机分为模型组、TⅡA组、TⅡA+miR-NC组、TⅡA+miR-155-5p mimics组,转染后分别加入10μmol/L TⅡA进行干预,并以添加DMSO的H9c2细胞作为对照组。qRT-PCR检测miR-155-5p表达水平;MTT法分析细胞增殖能力;流式细胞术评估细胞凋亡情况;ELISA测定TNF-α、IL-4、IL-10、IL-17、乳酸脱氢酶(LDH)、丙二醛(MDA)、超氧化物歧化酶(SOD)水平;Western blot检测SIRT1、AMPK、p-AMPK蛋白水平。结果:与对照组相比,模型组miR-155-5p表达升高,细胞活力下降,凋亡率及TNF-α、IL-17、LDH、MDA表达升高,IL-4、IL-10、SOD、SIRT1、p-AMPK表达减少(P<0.05);与模型组比较,TⅡA组miR-155-5p表达降低,细胞活力增强,凋亡率及TNF-α、IL-17、LDH、MDA表达下降,IL-4、IL-10、SOD、SIRT1、p-AMPK表达升高(P<0.05);与TⅡA组和TⅡA+miR-NC组比较,TⅡA+miR-155-5p mimics组miR-155-5p表达升高,细胞活力降低,凋亡率上升,TNF-α、IL-17、LDH、MDA表达上升,IL-4、IL-10、SOD、SIRT1、p-AMPK表达降低(P<0.05)。结论:TⅡA可通过下调miR-155-5p改善H9c2心肌细胞I/R损伤,其机制可能与激活SIRT1-AMPK通路有关。

基于miR-126-5p/Bcl-2/mPTP通路探究稳心汤对缺氧/复氧诱导H9c2心肌细胞损伤修复的作用机制

目的:观察稳心汤对缺氧/复氧诱导的H9c2心肌细胞损伤的影响,并基于miR-126-5p/Bcl-2/心肌细胞线粒体通透性转换孔(mPTP)调控通路明确其作用机制。方法:使用5%CO_(2)、1%O_(2)、94%N 2培养箱构建H9c2心肌细胞缺氧/复氧模型,并通过细胞转染技术达到miR-126-5p的过表达与抑制。待干预结束后观察心肌细胞上清液乳酸脱氢酶(LDH)释放水平、心肌细胞活性氧(ROS)含量;原位末端转移酶标记技术(TUNEL)检测心肌细胞凋亡;流式细胞仪检测心肌细胞线粒体mPTP开放水平;蛋白免疫印迹法(Western Blot)检测细胞色素C(Cyt-C)释放水平与Bcl-2、Caspase-3、Caspase-9蛋白表达水平;实时荧光定量逆转录聚合酶链式反应(qRT-PCR)检测miR-126-5p及Bcl-2、Caspase-3、Caspase-9的RNA表达水平。结果:与miR-126-5p低表达组比较,miR-126-5p过表达可显著降低LDH释放水平;减少心肌细胞ROS含量;改善心肌细胞凋亡率;提高心肌细胞CalceinAM水平,减少mPTP开放。miR-126-5p过表达可以减少H9c2心肌细胞Cyt-C释放水平,miR-126-5p低表达可部分减少H9c2心肌细胞Cyt-C释放水平。miR-126-5p过表达可上调Bcl-2蛋白与基因表达,下调Caspase-3与Caspase-9蛋白与基因表达。miR-126-5p低表达可部分上调miR-126-5p表达水平与Bcl-2蛋白与基因表达;部分下调Caspase-3与Caspase-9蛋白与基因表达。结论:稳心汤改善缺氧/复氧诱导的H9c2心肌细胞损伤可能与调控miR-126-5p/Bcl-2/mPTP信号通路有关,从而减轻氧化应激反应,降低线粒体膜通透性,抑制心肌细胞凋亡,延缓心肌损伤。

丙泊酚调控miR-21-3p对缺氧/复氧所诱导心肌细胞损伤的影响

目的探讨丙泊酚对缺氧/复氧(hypoxia/reoxygenation,H/R)诱导的心肌细胞损伤的影响及其可能作用机制。方法以H/R诱导的大鼠心肌细胞H9C2建立心肌缺血再灌注损伤模型,不同剂量的丙泊酚处理H9C2细胞;采用CCK-8法、流式细胞术分别检测细胞增殖及凋亡;采用qRT-PCR法检测miR-21-3p的表达量;ELISA法检测白细胞介素6(interleukin-6,IL-6)、肿瘤坏死因子-α(tumor necrosis factor-α,TNF-α)、白细胞介素-1β(interleukin-1β,IL-1β)的水平;anti-miR-NC、anti-miR-21-3p分别转染至H9C2细胞后进行H/R处理,miR-NC、miR-21-3p mimics分别转染至H9C2细胞后用50μmol/L丙泊酚处理24 h,然后进行H/R处理,采用上述方法分别检测细胞增殖、凋亡及炎性细胞因子表达水平;Western blot测定B淋巴细胞瘤-2相关蛋白(Bcl-2-associated X protein,Bax)、B淋巴细胞瘤-2(B-cell lymphoma-2,Bcl-2)蛋白表达量。结果丙泊酚处理后,H/R诱导的H9C2细胞增殖抑制率、TNF-α、细胞凋亡率、IL-1β、Bax蛋白水平、IL-6、miR-21-3p表达量下降(P<0.05),Bcl-2蛋白水平上升(P<0.05),且呈剂量依赖性;转染anti-miR-21-3p可降低细胞增殖抑制率、细胞凋亡率、Bax蛋白水平、IL-6、TNF-α、IL-1β水平(P<0.05),Bcl-2蛋白水平升高(P<0.05);转染miR-21-3p mimics可减弱丙泊酚对H/R诱导的H9C2细胞增殖、凋亡及炎性因子表达水平的作用。结论丙泊酚可通过抑制miR-21-3p表达而促进细胞增殖及抑制细胞凋亡、炎性反应从而减轻H/R诱导的心肌细胞损伤。

有序介孔材料H6P2W18O62/TiO2(Brij-76)的制备与微波增强光催化降解一氯苯

采用非离子表面活性剂C18H37(OCH2CH2)10OH(Brij-76)作为模板剂,在以杂多酸H6P2W18O62对TiO2掺杂改性基础上,通过模板-溶胶-凝胶-程序升温溶剂热一步法在较低温度下制备了有序复合介孔材料H6P2W18O62/TiO2(Brij-76).通过傅立叶变换红外(FT-IR)光谱,X射线衍射(XRD),扫描电子显微镜(SEM),能量色散X射线(EDX),N2吸附-脱附测定和NH3程序升温脱附(NH3-TPD)等手段对其进行了表征.结果表明,以非离子表面活性剂Brij-76为模板剂制得的复合材料H6P2W18O62/TiO2(Brij-76)平均孔径约为3.31nm,BET比表面积为99.78m2·g-1.与TiO2相比,其孔径有序性大幅度提高,粒子的聚集度降低,表面酸性显著增加.微波增强光催化性能研究结果显示,H6P2W18O62/TiO2(Brij-76)在微波作用下催化活性更高,可有效地降解一氯苯溶液.

H_9P_2W_(15)V_3/C催化1,4-丁二醇环化脱水制备四氢呋喃

以活性炭为载体,通过浸渍法制备了H9P2W15V3/C催化剂,对催化剂进行FT-IR表征。以催化1,4-丁二醇脱水制备四氢呋喃为探针反应,考察催化剂的酸催化性能。通过正交实验得出了最佳条件反应:w(催化剂)=3.93%(相对1,4丁二醇质量),反应温度为185～190℃,反应时间为40 min,四氢呋喃平均收率达93.30%,催化剂重复使用3次,产率仍可达90.94%。本工艺具有绿色、安全、操作简单、收率高等优点。

Dawson结构聚金属氧酸盐有机-无机复合物[{Y(DMSO)_5(H_2O)_3}{Y(DMSO)_8}][P_2W_(18)O_(62)]·2DMSO·2H_2O的合成、性质及晶体结构

以α-H6P2W18O62·nH2O,Y2O3,DMSO(二甲亚砜)为原料合成了Dawson结构聚金属氧酸盐有机-无机复合物犤狖Y(DMSO)5(H2O)3狚狖Y(DMSO)8狚犦犤P2W18O62犦·2DMSO·2H2O(1),化合物晶体属于单斜晶系,P21/c空间群,Mr=5803.06,a=1.7614(4)nm,b=3.1527(6)nm,c=2.1523(4)nm,β=90.40(3)°,V=11.963(4)nm3,Dc=3.222g·cm-3,μ=18.566mm-1,Z=4,F(000)=10464。由17342个可观测衍射点犤I≥2σ(I)犦用于精修所有的结构参数,得一致性因子R=0.0745,wR=0.1438。结构解析表明,化合物中两个Y3+离子的配位环境均为八配位的畸变双冠三棱柱构型。CV行为研究表明,标题化合物中阴离子(pH=5.5)存在五步还原过程,得电子数依次为1,1,1,1,2。化合物的IR光谱和X-射线衍射结果表明,固态条件下配阳离子与杂多阴离子之间存在较强的相互作用。

支原体巨噬细胞活化脂肽-2经PI3K/Nrf2诱导单核细胞表达HO-1和NQO1

目的 观察支原体巨噬细胞活化脂肽-2（MALP-2）对THP-1单核细胞血红素氧合酶-1（HO-1）和NAD（P）H：醌氧化还原酶-1（NQO1）表达的影响,以明确机体抵抗支原体感染所致炎性损伤的自我防御机制.方法 体外培养THP-1细胞并分为对照组和实验组.其中对照组加入等体积培养基,实验组根据不同的实验目的 加入不同浓度的MALP-2作用5～120 min或12 h,Western blot 检测HO-1和NQO1表达以及Akt磷酸化水平.同时,采用PI3K抑制剂LY294002处理细胞,以证实PI3K参与HO-1表达.提取细胞核蛋白,凝胶迁移率实验和免疫荧光观察NF-E2相关因子2（Nrf2）的DNA结合活性和核转位情况,并采用特异性siRNA沉默Nrf2后,Western blot观察其对HO-1和NQO1表达的影响.结果 Western blot结果显示,MALP-2能诱导THP-1细胞表达HO-1和NQO1蛋白,且呈一定的剂量依赖性.此外,MALP-2能激活PI3K,且PI3K抑制剂能抑制HO-1和NQO1的表达;凝胶迁移率实验和激光共聚焦结果显示,MALP-2能增强Nrf2的DNA结合活性及核转位,而PI3K抑制剂处理后,Nrf2的DNA结合活性以及核转位水平进一步降低.RNA干扰Nrf2后,HO-1和NQO1表达显著降低.结论 MALP-2能诱导THP-1细胞表达HO-1和NQO1,其机制可能受PI3K/Nrf2调控.

Long non-coding RNA H19 regulates neurogenesis of induced neural stem cells in a mouse model of closed head injury

Stem cell-based therapies have been proposed as a potential treatment for neural regeneration following closed head injury.We previously reported that induced neural stem cells exert beneficial effects on neural regeneration via cell replacement.However,the neural regeneration efficiency of induced neural stem cells remains limited.In this study,we explored differentially expressed genes and long non-coding RNAs to clarify the mechanism underlying the neurogenesis of induced neural stem cells.We found that H19 was the most downregulated neurogenesis-associated lnc RNA in induced neural stem cells compared with induced pluripotent stem cells.Additionally,we demonstrated that H19 levels in induced neural stem cells were markedly lower than those in induced pluripotent stem cells and were substantially higher than those in induced neural stem cell-derived neurons.We predicted the target genes of H19 and discovered that H19 directly interacts with mi R-325-3p,which directly interacts with Ctbp2 in induced pluripotent stem cells and induced neural stem cells.Silencing H19 or Ctbp2 impaired induced neural stem cell proliferation,and mi R-325-3p suppression restored the effect of H19 inhibition but not the effect of Ctbp2 inhibition.Furthermore,H19 silencing substantially promoted the neural differentiation of induced neural stem cells and did not induce apoptosis of induced neural stem cells.Notably,silencing H19 in induced neural stem cell grafts markedly accelerated the neurological recovery of closed head injury mice.Our results reveal that H19 regulates the neurogenesis of induced neural stem cells.H19 inhibition may promote the neural differentiation of induced neural stem cells,which is closely associated with neurological recovery following closed head injury.

下调miR-153-3p可促进Nrf2表达从而减轻H2O2诱导的H9C2细胞损伤

目的:研究敲减微小RNA-153-3p(miR-153-3p)的表达在H2O2引起的H9C2细胞氧化损伤中的作用以及具体机制。方法:建立H2O2诱导的H9C2细胞氧化应激损伤模型,分别通过MTT实验和RT-qPCR检测细胞活力和miR-153-3p表达的变化。通过RNA干扰技术敲减miR-153-3p的表达,观察其对氧化应激状态下H9C2细胞氧化损伤的影响,并通过Western blot和双萤光素酶报告基因实验确定miR-153-3p的作用靶点。结果:H9C2细胞活力随H2O2浓度升高而逐渐降低(P<0.05),miR-153-3p的表达则逐渐增加(P<0.05)。敲减miR-153-3p的表达可提高H9C2细胞在氧化应激状态下的细胞活力,减少细胞凋亡,减少丙二醛(MDA)含量并升高超氧化物岐化酶(SOD)活性(P<0.01)。Western blot实验可见核因子E2相关因子2(Nrf2)的表达和抗氧化反应元件(ARE)活性随H2O2浓度升高而升高(P<0.05);TargetScan分析和双萤光素酶报告基因实验结果显示Nrf2是miR-153-3p的潜在靶基因之一。Western blot实验进一步显示miR-153-3p过表达可抑制Nrf2的表达(P<0.01),抑制miR-153-3p则可促进Nrf2表达(P<0.01)。同时敲减H9C2细胞的Nrf2和miR-153-3p表达可显著降低H9C2细胞在H2O2环境下的细胞活力,促进细胞凋亡,增加MDA含量并降低SOD活性(P<0.01)。结论:抑制miR-153-3p表达可上调Nrf2/ARE通路从而减轻H2O2引起的H9C2细胞损伤。

miR-433-3p通过调控MAPK8蛋白在H_(2)O_(2)诱导的心肌细胞损伤中发挥保护作用

目的探究miR-433-3p在过氧化氢(H_(2)O_(2))诱导的大鼠心肌细胞(H9c2)损伤中的作用及具体机制的研究。方法构建氧化应激损伤模型,以H9c2心肌细胞为研究对象,通过转染miR-433-3p模拟物(miR-433-3p mimics)、miRNA阴性对照(miR-NC)、阴性对照(pcDNA-NC)和MAPK8过表达质粒(pcDNA-MAPK8)至H_(2)O_(2)诱导的H9c2细胞中,将细胞分为对照组(Control),H_(2)O_(2)模型组(H_(2)O_(2)),H_(2)O_(2)+miRNA阴性对照组(H_(2)O_(2)+miR-NC),H_(2)O_(2)+miR-433-3p模拟物组(H_(2)O_(2)+miR-433-3p mimics),H_(2)O_(2)+miR-433-3p模拟物+pcDNA阴性对照组(H_(2)O_(2)+miR-433-3p mimics+pcDNA-NC)和H_(2)O_(2)+miR-433-3p模拟物+MAPK8过表达组(H_(2)O_(2)+miR-433-3p mimics+pcDNA-MAPK8)。采用qRT-PCR法检测miR-433-3p和MAPK8在H9c2细胞中的mRNA表达水平。MTT法和ELISA试剂盒分别检测细胞活性和乳酸脱氢酶(LDH)释放量。Western blot法检测Bax、Bcl-2、Caspase-3、Cleaved Caspase-3、MAPK8和GAPDH的蛋白表达水平。双荧光素酶报告实验检测miR-433-3p与MAPK8之间的靶向关系。结果与对照组相比,miR-433-3p在H_(2)O_(2)诱导的心肌细胞H9c2中低表达。相比较H_(2)O_(2)+miR-NC组,miR-433-3p过表达可以显著降低LDH释放量并增强细胞活力。此外,相比较H_(2)O_(2)+miR-NC组,miR-433-3p过表达可以显著降低促凋亡蛋白Bax和Cleaved Caspase-3的表达水平,而促进抗凋亡蛋白Bcl-2的表达水平。双荧光素酶报告实验显示miR-433-3p可以靶向结合MAPK8并负调控MAPK8的表达。过表达MAPK8可逆转miR-433-3p过表达对H_(2)O_(2)诱导的H9c2细胞活性损伤和细胞凋亡的抑制作用。结论miR-433-3p通过负靶向调控MAPK8在H_(2)O_(2)诱导的心肌细胞损伤中发挥保护作用。

消退素D1通过抑制p38 MAPK活化上调H_2O_2诱导心肌细胞HO-1表达的实验研究

目的探讨消退素D1(RvD1)对H2O2诱导状态下H9C2心肌细胞血红素氧合酶-1(HO-1)的调节作用及相关的分子机制。方法将大鼠心肌H9C2细胞分为对照组、消退素D1+H2O2组(Resolvin D1+H2O2组)和H2O2组3组,在200μM的H2O2干预6小时后使用RT-PCR法和western blot法对各组H9C2心肌细胞HO-1mRNA和蛋白的表达水平进行检测;并使用western blot法对H9C2心肌细胞p38 MAPK磷酸化水平(Phospho-p38 MAPK/total p38MAPK比值)进行测量。结果与对照组比较,在H2O2干预6小时后H9C2心肌细胞HO-1mRNA和蛋白的表达水平明显降低,而p38 MAPK磷酸化水平均明显升高,差异均有统计学意义(均P<0.05);但H2O2组较Resolvin D1+H2O2组HO-1mRNA和蛋白表达的降低以及p38 MAPK磷酸化水平的增加更加显著,差异均有统计学意义(均P<0.05)。结论本研究结果表明,在过氧化氢诱导的H9C2心肌细胞氧化应激和损伤过程中消退素D1可能是通过抑制P38 MAPK的活化上调了HO-1的表达,对心肌细胞有保护作用。

奇数个等距结点上的2-周期〔0,p〔δ/2h〕〕三角插值

研究了插值结点数是4n+1的2-周期〔0,p〔δ/2h〕〕三角插值,找出了正则时的充分必要条件及相应的插值基函数,并给出了当p(t)=tm时的收敛阶.

H_6P_2W_(18)O_(62)/SiO_2催化合成4-苯基-6-甲基-5-乙氧羰基-3,4-二氢嘧啶-2(H)-酮

采用溶胶凝胶法将Dawson型磷钨酸负载于SiO2上,制备的负载型催化剂H6P2W18O62/SiO2,通过FTIR、XRD、SEM、TGA对其进行表征。结果表明,该Dawson型磷钨酸可以较均匀地分散在SiO2载体上,且在催化合成4-苯基-6-甲基-5-乙氧羰基-3,4-二氢嘧啶-2(H)-酮的Biginelli反应中表现出较高的催化活性。最佳反应条件为:在固定苯甲醛用量为0.04 mol条件下,n(苯甲醛)∶n(乙酰乙酸乙酯)∶n(尿素)=1∶1.5∶1.5,催化剂用量为反应物总质量的2.0%,反应温度为80℃,反应时间为75 min。在最优条件下,产品平均收率可达82.3%,催化剂重复利用10次后收率仍达57.2%。

奇数个结点上反周期函数的2-周期[0,P[(1/2h)δ]]三角插值收敛性

研究了奇数个等距结点上以π为周期的反周期函数的2-周期三角插值[0,P[(1/2h)δ]]问题,给出它在ω4n+1⊥中有惟一解的充要条件和这种插值函数的明显式,同时讨论了该问题在特殊情况下的插值算子的收敛性.

金樱子总黄酮上调miR-1247-3p表达对缺氧/复氧诱导心肌细胞损伤的影响

目的:观察金樱子总黄酮(RLMTF)对缺氧/复氧(H/R)诱导的心肌细胞损伤的影响及可能作用机制。方法:采用H/R诱导大鼠心肌细胞H9C2建立细胞损伤模型,采用不同剂量的金樱子总黄酮处理细胞,实验分为Con组、H/R组、H/R+RLMTF-L组、H/R+RLMTF-M组、H/R+RLMTF-H组、H/R+miR-NC组、H/R+miR-1247-3p组、H/R+RLMTF+anti-miR-NC组、H/R+RLMTF+anti-miR-1247-3p组。使用试剂盒检测丙二醛(MDA)水平与超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GSH-Px)活性;流式细胞术检测细胞凋亡率;实时荧光定量聚合酶链式反应(qRT-PCR)检测miR-1247-3p表达。结果:与Con组比较,H/R组MDA水平、细胞凋亡率和Cleaved-Caspase 3、Cleaved-Caspase 9蛋白水平升高(P<0.05),miR-1247-3p表达量和SOD、GSH-Px活性降低(P<0.05)。与H/R组比较,H/R+RLMTF-L组、H/R+RLMTF-M组、H/R+RLMTF-H组MDA水平、细胞凋亡率降低(P<0.05),miR-1247-3p表达量和SOD、GSH-Px活性升高(P<0.05),且呈剂量依赖性。与H/R+miR-NC组比较,H/R+miR-1247-3p组MDA水平、细胞凋亡率降低(P<0.05),SOD、GSH-Px活性升高(P<0.05);与H/R+RLMTF+anti-miR-NC组比较,H/R+RLMTF+anti-miR-1247-3p组MDA水平、细胞凋亡率升高(P<0.05),SOD、GSH-Px活性降低(P<0.05)。结论:金樱子总黄酮通过促进miR-1247-3p表达,抑制氧化应激及细胞凋亡,从而减轻H/R诱导的心肌细胞损伤。

H_2O_2预处理通过ERK1/2和p38 MAPK信号通路上调14-3-3蛋白在PC12细胞中的表达(英文)

目的探讨H2O2预处理对1-甲基-4-苯基吡啶离子(1-methyl-4- phenylpyridinium, MPP+)诱导PC12细胞毒性损伤的保护作用及其可能的机制。方法分别用3-(4,5-二甲基噻唑-2)–2,5-二苯基四氮唑嗅盐[3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide,MTT]和4,6-二氨基-2-苯基吲哚(4’,6’-diamidino-2-phenylindole,DAPI)染色技术检测PC12 细胞的活力及细胞凋亡核形态改变;Western blot检测PC12细胞中14-3-3蛋白、磷酸化p38 MAPK的水平。酶联免疫吸附实验(Enzyme-linked immunosorbent assay,ELISA)试剂盒检测ERK1/2磷酸化水平。结果 MPP+处理PC12细胞24 h使细胞活力显著下降(51.6%),DAPI染色显示(51.3±6.6)%的PC12细胞呈现核固缩等细胞凋亡形态改变;H2O2预处理能显著增加PC12细胞活力(83.4%),减少凋亡细胞数[(24.9±4.3)%],说明H2O2预处理能对抗MPP+ 毒性,对 PC12 细胞具有保护作用。Western blot 结果显示,H2O2 预处理在减少 PC12 细胞凋亡的同时伴随有14-3-3蛋白及磷酸化p38 MAPK表达上调;ELISA实验显示ERK1/2磷酸化水平显著增加。相关分析显示14-3-3蛋白表达的上调与ERK1/2磷酸化水平呈正相关(r = 0.923,P < 0.01),而且PD98059抑制ERK1/2磷酸化后,H2O2预处理诱导14-3-3蛋白表达上调的作用消失。结论 H2O2预处理能对抗MPP+对PC12细胞的毒性作用,这种保护作用与细胞内14-3-3蛋白表达上调有关;而14-3-3蛋白表达上调与ERK1/2和p38 MAPK信号通路的激活有关。

配合物[NH_3(CH_2)_4NH_3]Co(hedpH_2)(H_2O)_2的水热合成与表征(hedpH_4=1-羟亚乙基二膦酸)

采用水热合成法以丁二胺作为模板剂合成了钴的有机二膦酸超分子化合物[NH3(CH2)4NH3]Co(hedpH2)2(H2O)2 [hedpH4 = 1-羟亚乙基二膦酸, CH3C(OH)(PO3H2)2]。用元素分析、红外光谱、紫外-可见光谱、热重分析以及单晶结构解析对其进行了表征。该化合物的化学式为:C8H30N2CoO16P4,Mr = 593.15,晶体属单斜晶系,空间群C2/c,晶胞参数a = 16.128(2), b = 12.427(1), c = 12.610(2) ? b = 121.389(9), V = 2157.3(4) 3, Z = 4, Dc = 1.826 g/cm3, m(MoKa) = 1.172 mm-1, F(000) = 1228。结构用直接法解出,最终偏离因子R = 0.0285, wR = 0.0747。该化合物的结构包含单核的Co(hedpH2)2- 阴离子,阴离子之间通过氢键连结形成具有空隙的三维超分子骨架结构,双质子化的丁二胺分子位于空隙中。

H_6P_2W_(18)O_(62)/SiO_2催化合成5-乙氧羰基-4-(4-羟基苯基)-6-甲基-3,4-二氢嘧啶-2(1H)-酮

采用H6P2W18O62/SiO2为催化剂,以对羟基苯甲醛、乙酰乙酸乙酯、尿素为原料合成5-乙氧羰基-4-(4-羟基苯基)-6-甲基-3,4-二氢嘧啶-2(1H)-酮.探讨H6P2W18O62/SiO2对本反应的催化活性,较系统地研究了反应物物质的量比、催化剂用量、反应时间、反应温度四因素对产物收率的影响.实验表明:H6P2W18O62/SiO2是合成5-乙氧羰基-4-(4-羟基苯基)-6-甲基-3,4-二氢嘧啶-2(1H)-酮的良好催化剂;在n(对羟基苯甲醛)∶n(乙酰乙酸乙酯)∶n(尿素)=1∶1.5∶1.5,催化剂的用量占反应物料总质量的1.5%,反应温度为80℃,反应时间为60 min的最佳条件下,其收率可达94.4%.