电纺丝制备磁性单晶BiFeO_(3)纳米纤维并用于Cr(VI)的可见光催化还原

本工作提出一种将溶胶凝胶与静电纺丝结合的分步快速烧结技术,成功制备了单晶BiFeO_(3)纳米纤维。通过热重差热分析(TG-DTG)、XRD、SEM、TEM、EDS、紫外可见漫反射光谱和氮气吸附脱附曲线等测试对所制备材料的结构和形貌进行表征。同时,考察了BiFeO_(3)纳米纤维在可见光下对水中Cr(VI)的光催化还原性能。结果显示,相比于传统方式制备的纳米颗粒,该材料因更大的比表面积而具有更高的光催化活性。空穴消耗剂酒石酸的加入能够促进该材料对Cr(VI)的光催化还原反应,使还原效率提高87%。总之,本文制备的BiFeO_(3)材料能在可见光下响应,并在常温下具有弱磁性,能通过磁场力回收,在环境净化领域具有广阔的应用前景。

Enhancing BiVO_(4)photoanode performance by insertion of an epitaxial BiFeO_(3)ferroelectric layer

BiVO_(4)(BVO)is a promising material as the photoanode for use in photoelectrochemical applications.However,the high charge recombination and slow charge transfer of the BVO have been obstacles to achieving satisfactory photoelectrochemical performance.To address this,various modifications have been attempted,including the use of ferroelectric materials.Ferroelectric materials can form a permanent polarization within the layer,enhancing the separation and transport of photo-excited electron-hole pairs.In this study,we propose a novel approach by depositing an epitaxial BiFeO_(3)(BFO)thin film underneath the BVO thin film(BVO/BFO)to harness the ferroelectric property of BFO.The self-polarization of the inserted BFO thin film simultaneously functions as a buffer layer to enhance charge transport and a hole-blocking layer to reduce charge recombination.As a result,the BVO/BFO photoanodes showed more than 3.5 times higher photocurrent density(0.65 mA cm^(-2))at 1.23 V_(RHE)under the illumination compared to the bare BVO photoanodes(0.18 m A cm^(-2)),which is consistent with the increase of the applied bias photon-to-current conversion efficiencies(ABPE)and the result of electrochemical impedance spectroscopy(EIS)analysis.These results can be attributed to the self-polarization exhibited by the inserted BFO thin film,which promoted the charge separation and transfer efficiency of the BVO photoanodes.

Defect engineering on BiFeO_(3) through Na and V codoping for aqueous Na-ion capacitors

Sodium with low cost and high abundance is considered as a substitute element of lithium for batteries and supercapacitors,which need the appropriate host materials to accommodate the relatively large Na^(+) ions.Compared to Li^(+) storage,Na^(+) storage makes higher demands on the structural optimization of perovskite bismuth ferrite(BiFeO_(3)).We propose a novel strategy of defect engineering on BiFeO_(3) through Na and V codoping for high-efficiency Na^(+) storage,to reveal the roles of oxygen vacancies and V ions played in the enhanced electrochemical energy storage performances of Na-ion capacitors.The formation of the oxygen vacancies in the Na and V codoped BiFeO_(3)(denoted as NV-BFO),is promoted by Na doping and suppressed by V doping,which can be demonstrated by XPS and EPR spectra.By the first-principles calculations,the oxygen vacancies and V ions in NV-BFO are confirmed to substantially lower the Na^(+)migration energy barriers through the space and electric field effects,to effectively promote the Na^(+) transport in the crystals.Electrochemical kinetic analysis of the NV-BFO//NV-BFO capacitors indicates the dominant capacitive-controlled capacity,which depends on fast Na^(+) deintercalation-intercalation process in the NV-BFO electrode.The NV-BFO//NV-BFO capacitors open up a new avenue for developing highperformance Na-ion capacitors.

Gd^(3+)掺杂调控BiFeO_(3)-BaTiO_(3)高温无铅压电陶瓷的结构与性能

用于监测航空发动机、重型燃气轮机等重大技术装备高温部件振动状态的压电加速度传感器,需要一种高居里温度压电陶瓷作为敏感元件,而电子元器件的无铅化是环境保护的迫切要求。采用传统的固相反应法制备一种Gd/Mn共掺杂的BF-BT((0.67BiFeO_(3)-0.33Ba_(1-x)Gd_(x)TiO_(3))+0.5%(质量分数)MnO_(2),x=0~0.02)高温无铅压电陶瓷,并研究Gd^(3+)掺杂浓度(x)对BF-BT陶瓷的相组成、微观结构、压电性能、介电弛豫行为及交流阻抗特征的影响。结果表明:所有样品均为单一钙钛矿结构,三方相(R)和四方相(T)共存,且T相含量随x增加而增加;适量的Gd^(3+)(x<0.02)固溶进入钙钛矿点阵之中能够促进BF-BT陶瓷晶粒的生长。掺杂Gd^(3+)的样品表现出增强的弛豫相变行为,相变温度(T_m)随x的增加而减小,而介电弛豫程度(ΔT_(relax))随x的增加而增大。采用R-CPE等效电路模型对BF-BT陶瓷的高温复阻抗谱(Cole-Cole图)进行拟合分析,发现样品在高温下的交流阻抗主要来自晶界的贡献。并且随着Gd^(3+)掺杂浓度的提高,样品的介电弛豫激活能不断增大,证实Gd^(3+)取代Ba^(2+)减少了晶格中氧空位浓度的施主掺杂效应。综合来看,x=0.01的样品具有最优的电学性能:T_(C)=425℃,d_(33)=126 pC/N,k_(p)=25.9%,tanδ=0.059,有望作为一种合适的高温压电材料被应用。

Structure,ferroelectric,and enhanced fatigue properties of sol–gel-processed new Bi-based perovskite thin films of Bi(Cu_(1/2)Ti_(1/2))O_(3)–PbTiO_(3)

Bi-based perovskite ferroelectric thin films have wide applications in electronic devices due to their excellent ferroelectric properties.New Bi-based perovskite thin films Bi(Cu_(1/2)Ti_(1/2))O_(3)–PbTiO_(3)(BCT–PT) are deposited on Pt(111)/Ti/SiO_(2)/Si substrates in the present study by the traditional sol–gel method.Their structures and related ferroelectric and fatigue characteristics are studied in-depth.The BCT–PT thin films exhibit good crystallization within the phase-pure perovskite structure,besides,they have a predominant(100) orientation together with a dense and homogeneous microstructure.The remnant polarization(2P_(r)) values at 30 μC/cm^(2) and 16 μC/cm^(2) are observed in 0.1BCT–0.9PT and 0.2BCT–0.8PT thin films,respectively.More intriguingly,although the polarization values are not so high,0.2BCT–0.8PT thin films show outstanding polarization fatigue properties,with a high switchable polarization of 93.6% of the starting values after 10^(8) cycles,indicating promising applications in ferroelectric memories.

Protective effects of CY-09 and astaxanthin on NaIO_(3)-induced photoreceptor inflammation via the NLRP3/autophagy pathway

AIM:To study the effect of the NLRP3/autophagy pathway on the photoreceptor inflammatory response and the protective mechanism of CY-09 and astaxanthin(AST).METHODS:ICR mice were intraperitoneally injected NaIO_(3),CY-09,AST successively and divided into 5 groups,including the control,NaIO_(3),NaIO_(3)+CY-09,NaIO_(3)+AST,and NaIO_(3)+CY-09+AST groups.Spectral domain optical coherence tomography and flash electroretinogram were examined and the retina tissues were harvested for immunohistochemistry,enzyme linked immunosorbent assay(ELISA),and Western blotting.Retinal pigment epithelium cell line(ARPE-19 cells)and mouse photoreceptor cells line(661W cells)were also treated with NaIO_(3),CY-09,and AST successively.Cell proliferation was assessed by cell counting kit-8(CCK-8)assay.Apoptosis was analyzed by flow cytometry.Changes in autophagosome morphology were observed by transmission electron microscopy.Quantitative polymerase chain reaction(qPCR)was used to detect NLRP3 and caspase-1.NLRP3,caspase-1,cleaved caspase-1,p62,Beclin-1,and LC3 protein levels were measured by Western blotting.IL-1βand IL-18 were measured by ELISA.RESULTS:Compared with the control group,the activity of NaIO_(3)-treated 661W cells decreased within 24 and 48h,apoptosis increased,NLRP3,caspase-1,IL-1βand IL-18 levels increased,and autophagy-related protein levels increased(P<0.05).Compared with NaIO_(3) group,CY-09 and AST inhibited apoptosis(P<0.05),reduced NLRP3,caspase-1,IL-1βand IL-18 expression(P<0.05),and inhibited autophagy.Compared with the other groups,CY-09 combined with AST significantly decreased NLRP3 expression and inhibited the expression of the autophagy-related proteins p62,Beclin-1,and LC3 in vitro and in vivo(P<0.05).CONCLUSION:CY-09 and AST inhibit NaIO_(3)-induced inflammatory damage through the NLRP3/autophagy pathway in vitro and in vivo.CY-09 and AST may protect retina from inflammatory injury.

Ultrathin GaN Film Derived from Amorphous Ga_(2)O_(3) Film

It remains a big challenge to synthesize two-dimensional(2D)GaN material for applications in power nanodevices.Traditional synthetic methods require complex equipment and processes and time consuming.Here,we reported a two-step route to prepare polycrystalline 2D GaN film.The amorphous ultrathin Ga_(2)O_(3)film was first exfoliated from the surface of liquid gallium.In a vapor phase reaction,2D Ga_(2)O_(3)film was then converted into 2D GaN film while maintaining the 2D morphology.Raman and high-resolution transmission electron microscope(HRTEM)analysis implies the successful synthesis of wurtzite-type GaN ultrathin film.This simple strategy proposed in this work will provide more opportunities for applications of GaN ultrathin film in many devices.

Interface optimization and defects suppression via Na F introduction enable efficient flexible Sb_(2)Se_(3) thin-film solar cells

Sb_(2)Se_(3) with unique one-dimensional(1D) crystal structure exhibits exceptional deformation tolerance,demonstrating great application potential in flexible devices.However,the power conversion efficiency(PCE) of flexible Sb_(2)Se_(3) photovoltaic devices is temporarily limited by the complicated intrinsic defects and the undesirable contact interfaces.Herein,a high-quality Sb_(2)Se_(3) absorber layer with large crystal grains and benign [hkl] growth orientation can be first prepared on a Mo foil substrate.Then NaF intermediate layer is introduced between Mo and Sb_(2)Se_(3),which can further optimize the growth of Sb_(2)Se_(3)thin film.Moreover,positive Na ion diffusion enables it to dramatically lower barrier height at the back contact interface and passivate harmful defects at both bulk and heterojunction.As a result,the champion substrate structured Mo-foil/Mo/NaF/Sb_(2)Se_(3)/CdS/ITO/Ag flexible thin-film solar cell delivers an obviously higher efficiency of 8.03% and a record open-circuit voltage(V_(OC)) of 0.492 V.This flexible Sb_(2)Se_(3) device also exhibits excellent stability and flexibility to stand large bending radius and multiple bending times,as well as superior weak light photo-response with derived efficiency of 12.60%.This work presents an effective strategy to enhance the flexible Sb_(2)Se_(3) device performance and expand its potential photovoltaic applications.

有氧运动训练影响阿尔茨海默症小鼠海马Notch1、Caspase-3的表达

背景:β-淀粉样蛋白和Tau蛋白会对阿尔茨海默症患者的认知功能产生不良影响,研究发现Notch1及Caspase-3能够调控β-淀粉样蛋白和Tau蛋白的表达。Notch1及Caspase-3是否介导了有氧运动改善阿尔茨海默症患者认知能力的过程还不清楚,目前缺乏长期有氧运动影响阿尔茨海默症小鼠海马中Notch1及Caspase-3表达的研究。目的:观察长期有氧运动干预阿尔茨海默症小鼠的空间学习记忆情况及其海马中Notch1及Caspase-3的表达,探讨Notch1及Caspase-3对阿尔茨海默症小鼠的影响。方法:将3月龄野生型及APP/PS1双转基因阿尔茨海默症小鼠随机分为4组:野生对照组、野生运动组、阿尔茨海默症对照组、阿尔茨海默症运动组,每组20只。对照组小鼠不进行运动,运动组小鼠进行5个月的有氧运动干预。运动干预结束后,采用Morris水迷宫检测小鼠空间学习记忆能力;采用Real-timePCR、免疫荧光及Westernblot检测各组小鼠海马组织Aβ_(1-42)、Tau、Notch1及Caspase-3蛋白的表达。结果与结论:①阿尔茨海默症小鼠空间学习记忆能力显著差于野生组(P<0.05);运动组小鼠空间学习记忆能力显著优于对照组(P<0.05);②阿尔茨海默症对照组小鼠海马Aβ_(1-42)、Tau、Notch1及Caspase-3表达均显著高于野生对照组(P<0.05);阿尔茨海默症运动组小鼠海马Aβ_(1-42)、Tau、Notch1及Caspase-3表达显著低于阿尔茨海默症对照组(P<0.05);③提示:长期有氧运动干预能够改善阿尔茨海默症小鼠的空间学习记忆能力,而这可能与有氧运动降低阿尔茨海默症小鼠海马Notch1、Caspase-3、Aβ_(1-42)及Tau蛋白表达有关。

CMAS、CMAS+NaVO_(3)、CMAS+海盐作用下热障涂层的腐蚀行为与机理

环境沉积物(CaO-MgO-Al_(2)O_(3)-SiO_(2),CMAS)的高温腐蚀已成为航空发动机涡轮叶片热障涂层过早失效的重要原因之一。然而涡轮叶片工作环境复杂,熔盐、海盐常与CMAS耦合,一起对热障涂层造成多元复杂腐蚀,但目前关于CMAS与盐类的多元耦合腐蚀行为鲜有报道。针对Y2O_(3)部分稳定ZrO_(2)(YSZ)热障涂层在CMAS、CMAS+NaVO_(3)、CMAS+海盐作用下的腐蚀行为进行对比研究。通过XRD、SEM等方法对不同条件下腐蚀后的涂层进行表征,并分析热处理温度、腐蚀物种类对腐蚀行为的影响。结果表明:与CMAS相比,CMAS+NaVO_(3)、CMAS+海盐会在更低的温度下损伤涂层(1200℃)。当三种腐蚀物均能完全熔化时(1250℃),CMAS+NaVO_(3)、CMAS+海盐熔体则由于更大的流动性而大量渗入,腐蚀内部涂层。其中,CMAS+海盐熔体在涂层内的渗透性最强,1250℃热处理4 h后,渗透深度超过400μm。盐类的共存会改变CMAS的性质,增强熔体的渗透能力,增加涂层内部甚至底部失效的倾向。研究结果有助于理解盐类与CMAS耦合时混合熔体对热障涂层的破坏机理及潜在威胁。

LiF掺杂对BiFeO_(3)-BaTiO_(3)陶瓷结构、铁电和压电性能的影响

采用固相反应法制备0.7BiFeO_(3)-0.3BaTiO_(3)+0.35%(摩尔分数,下同)MnO_(2)+x%LiF(BF-BT-MN-x LF)压电陶瓷。采用XRD,SEM,铁电测试系统和精密阻抗分析仪测试陶瓷的物相组成、显微结构和铁电、压电性能。结果表明:LiF掺杂加强晶格畸变,促进烧结和晶粒生长,改善压电性能的温度稳定性。Li^(+)和F-不等价取代A/B位产生的复合缺陷偶极子,转向速度滞后于外加电场的变化,导致电滞回线呈现夹持现象。同时,对BF-BT-MN-x LF陶瓷的退极化行为以及居里温度变化的研究表明,LiF掺杂显著提高陶瓷的居里温度T c和退极化温度T_(d),T_(c)和T_(d)分别由500℃和410℃(x=0)升高到550℃和505℃(x=0.50)。当LiF掺杂量为0.50%时,在860~1020℃温度范围内烧结的陶瓷始终保持较高的压电系数,d_(33)=176~202 pC/N。x=0.50的陶瓷样品在960℃烧结表现出最佳的压电性能:d_(33)=202 pC/N,k_(p)=34%,T_(c)≈550℃,T_(d1)≈505℃。

STAT3在阿尔茨海默病小鼠认知障碍发生发展中的作用及机制研究

目的 研究信号传导及转录激活因子3(STAT3)在阿尔茨海默病小鼠认知障碍发生发展中的作用及机制。方法 利用C57BL/6J小鼠双侧海马脑立体定位注射β-淀粉样蛋白建立阿尔茨海默病模型,给予STAT3抑制剂氯硝柳胺,运用动物行为学分析检测、Western blot分析检测等探究STAT3在认知障碍中的作用及机制。结果 行为学实验表明,与模型组小鼠相比,给药组小鼠的焦虑症状、空间探索能力、物体识别能力和学习记忆能力均得到改善;Western blot分析结果表明,给药后小鼠阿尔茨海默病的病理标志物改善,促炎因子表达下调;试剂盒分析结果显示给药组小鼠氧化应激相关指标改善;HE染色结果显示给药组小鼠海马神经元组织形态的改善。结论 本研究初步证明了抑制STAT3可减轻神经炎症和氧化应激,从而改善阿尔茨海默病小鼠的认知障碍。

沈阳市O_(3)与PM_(2.5)关系及污染主控因素分析

PM_(2.5)与O_(3)的协同控制是空气质量持续改善的关键所在,厘清PM_(2.5)与O_(3)的关系,识别O_(3)主控因素以及量化气象和人为排放贡献是实施二者协同控制的基础.本研究基于沈阳市大气复合立体超级站2019−2022年地面观测数据,分析PM_(2.5)和O_(3)协同关系及成因;利用逐步回归模型得到影响O_(3)变化的主控因素,并估算各气象因素对O_(3)的贡献.结果表明:①沈阳市2019−2022年夏季PM_(2.5)浓度与O_(3)浓度呈正相关,有明显的协同增长效应,其余三季均呈明显负相关.究其原因,主要是由于夏季高温和高太阳辐射条件利于大气光化学反应,促进了O_(3)、PM_(2.5)中二次无机成分〔主要是硫酸盐(SO_(4)^(2−))、硝酸盐(NO_(3)−)和铵盐(NH_(4)^(+)),简称“SNA”〕共同增长所致;而冬季高排放和高大气稳定度等气象条件利于SNA和二次有机碳(SOC)非均相生成,但弱太阳辐射和低温等条件不利于O_(3)光化学生成,加之高NO的滴定效应,使SNA和SOC浓度均与O_(3)浓度呈负相关.②在观测的相关污染物和气象因子中,过氧乙酰硝酸酯(PAN)与O_(3)浓度的关系最为密切,尤其在夏季.③气象因素中,O_(3)浓度与气温高度相关,与风速也呈正相关,而与相对湿度则在各季节均呈负相关.冬、春、秋三季PM_(2.5)均对O_(3)起抑制作用,冬季尤为突出.在高浓度O_(3)污染(O_(3)浓度>160μg/m^(3))过程中,主控因素中气温和风速的抬升促进O_(3)浓度升高,而高NO2和相对湿度(RH)则有利于降低O_(3)浓度.在2019−2022年高浓度O_(3)污染过程中,气象因素对沈阳市O_(3)浓度变化的贡献高于O_(3)前体物排放的贡献,总贡献为57μg/m^(3),对污染形成起着主导作用.

复合添加MgO和La_(2)O_(3)对纳米微晶氧化铝陶瓷微观结构的影响

纳米微晶氧化铝磨料具有良好的通用性和高精度磨削能力,且性价比较高,在机械制造、轴承、模具、汽车等领域有广泛的应用潜力。本研究以勃姆石(γ-AlOOH)为原料,MgO、La_(2)O_(3)为添加剂,采用溶胶-凝胶工艺合成纳米微晶氧化铝。通过差示扫描量热仪、X射线衍射仪、扫描电子显微镜和从头算分子动力学方法模拟计算研究了添加剂对微晶氧化铝相转化、物相组成、微观结构及力学性能的影响。结果表明:复合添加MgO和La2O3可以使氧化铝中间相θ-Al_(2)O_(3)向α-Al_(2)O_(3)转化的温度从1257℃降低到1105℃,将致密化温度从1600℃降低到1350℃,将微晶氧化铝的晶粒尺寸从1.04 mm减小到120 nm,实现了低温致密烧结。

NdF_(3)-LiF-Nd_(2)O_(3)-NdF_(2)熔盐体系结晶行为的研究

氟化物体系稀土氧化物熔盐电解过程中,熔盐的结晶析出行为显著影响电解过程,为此本文针对NdF_(3)-LiF-Nd_(2)O_(3)、NdF_(3)-LiF-NdF_(2)以及NdF_(3)-LiF-Nd_(2)O_(3)-NdF_(2)三种熔盐体系(NdF_(3)和LiF质量比固定为85∶15),采用降温黏度曲线测定熔盐的结晶温度,通过X射线衍射分析结晶物相。结果表明:NdF_(3)-LiF-Nd_(2)O_(3)和NdF_(3)-LiF-NdF_(2)熔盐体系中,随着熔盐中Nd_(2)O_(3)或NdF_(2)含量的增加,熔盐的结晶温度升高,熔盐的结晶物相分别为NdOF和NdF_(2);NdF_(3)-LiF-Nd_(2)O_(3)-NdF_(2)熔盐体系中,当Nd_(2)O_(3)含量为2%~3%、NdF_(2)含量为1%~3%时,熔盐结晶温度在981~988℃范围内,且NdOF与NdF_(2)共结晶。适当提高电解槽底部温度、改善底部熔盐的流动性,是抑制稀土熔盐电解过程熔盐结晶析出的有效方法。

Fe^(3+)对细粒菱锌矿和方解石分散行为的影响

方解石矿泥的覆盖和高价金属阳离子的存在是影响粒径−20μm细粒菱锌矿浮选效果的关键因素,两者通过改变菱锌矿的表面性质而恶化其分散性和浮选环境。本文选择菱锌矿浮选中常见的Fe^(3+)为研究对象,通过吸附试验、Zeta电位、XPS分析,DLVO理论计算等考察Fe^(3+)对菱锌矿和方解石的分散行为规律和作用机理。结果表明:两种矿物对Fe^(3+)的吸附行为基本一致,但Fe^(3+)对菱锌矿分散行为的影响程度大于Fe^(3+)对方解石分散行为的影响。当Fe^(3+)浓度为5×10^(−4)mol/L时,菱锌矿分散行为被完全破坏。溶液化学及DLVO理论计算结果表明,Fe^(3+)吸附在矿物表面形成了羟基络合物或Fe(OH)3,导致菱锌矿颗粒间作用力小于方解石的,这是Fe^(3+)破坏菱锌矿分散行为、影响粒径−20μm细粒菱锌矿浮选的主要原因。

NH_(3)SO_(3)改性稀土尾矿催化剂NH_(3)-SCR脱硝活性及SO_(2)/H_(2)O耐受性能研究

采用球磨、微波焙烧方法制备了不同质量分数NH_(3)SO_(3)改性稀土尾矿NH_(3)-SCR脱硝催化剂。通过BET、SEM-EDS、XRD、NH_(3)-TPD、H_(2)-TPR分析了催化剂脱硝活性及SO_(2)/H_(2)O耐受性能。结果表明:NH_(3)SO_(3)改性使催化剂脱硝活性得到了显著提高,10%NH_(3)SO_(3)改性催化剂在300~350℃脱硝活性可达90%左右。SO_(2)/H_(2)O共同作用可将10%NH_(3)SO_(3)改性催化剂脱硝活性提高至97%,其促进作用保持了良好的稳定性,且具有可逆性。NH_(3)SO_(3)改性稀土尾矿后,催化剂比表面积、酸性位点及强度增加,表面活性物质分散度更高,弱化了尾矿矿物晶型,提高了催化剂吸附能力和氧化还原能力,从而提高催化脱硝活性,同时具备优良的SO_(2)/H_(2)O耐受性。

活动性肺结核患者血清ATG3和FOXO3水平变化对患者病情进展及预后评估的相关性分析

目的分析活动性肺结核患者血清中自噬相关基因3(ATG3)和叉头转录因子O亚型3(FOXO3)表达水平变化以及与患者病情进展及预后的关系。方法以2019年9月~2022年9月于本院就诊的91例活动性肺结核患者(观察组)为研究对象,另选取同时期于本院体检的91例健康体检者作为对照组;酶联免疫吸附法检测血清中ATG3和FOXO3表达水平;利用Spearman相关分析活动性肺结核患者血清中ATG3和FOXO3表达水平与患者病情严重程度之间的相关性;采用Logistic回归分析影响活动性肺结核患者预后的因素;采用ROC曲线分析血清中ATG3和FOXO3表达水平对活动性肺结核患者预后评估的价值。结果与对照组相比,观察组血清中ATG3和FOXO3表达水平显著下降(P<0.05);与轻症组相比,重症组患者血清中ATG3和FOXO3表达水平显著下降(P<0.05);与预后不良组相比,预后良好组患者血清中ATG3和FOXO3表达水平显著升高(P<0.05);预后良好组与预后不良组患者ESR、PCT、CRP、TNF-α、INF-γ和IL-2相比差异具有统计学意义(P<0.05);Spearman相关分析显示活动性肺结核患者血清中ATG3和FOXO3表达水平与患者病情严重程度呈负相关(P<0.05);Logistic回归分析结果显示,ESR、CRP、ATG3和FOXO3为影响活动性肺结核患者预后不良的因素(P<0.05);ROC曲线分析显示,血清中ATG3和FOXO3表达水平联合预测活动性肺结核患者预后较ATG3和FOXO3单一指标预测效果更优(P<0.05)。结论活动性肺结核患者血清中ATG3和FOXO3表达水平显著下降,且与活动性肺结核病情严重程度相关,二者联合对活动性肺结核患者预后具有较高的评估价值。

miR-421靶向调控Menin/Caspase-3影响抑郁症的机制

目的探讨miR-421影响抑郁症发生发展的作用机制。方法采取单次腹腔注射脂多糖(LPS)方法建立抑郁大鼠模型,采用糖水偏好度测试和旷场实验进行抑郁行为检测。通过miRNA微阵列芯片和RT-PCR分析miR-421在抑郁大鼠海马组织中的表达量,运用TargetScan数据库和mi RDB数据库进行预测miR-421的靶基因,采用双荧光素酶报告基因实验观察其与靶基因的结合情况,观察过表达和抑制miR-421对靶基因的影响,随后过表达和抑制靶基因,观察其对下游因子的影响,最终探究miR-421影响抑郁症的相关机制。结果miRNA微阵列芯片和RT-PCR检测表明miR-421在抑郁大鼠海马组织中呈高表达(P<0.001),抑制miR-421的表达可显著恢复抑郁大鼠的体重和运动能力(P<0.001)。TargetScan数据库预测得到Menin与miR-421存在结合靶点,双荧光素酶报告基因实验表明Menin与miR-421具有相互作用;当miR-421过表达时,Menin表达量会下调(P<0.001),相反,当抑制miR-421表达时,Menin表达量会上调(P<0.001)。qPCR检测提示,Menin下游因子Caspase-3、NF-κB在抑郁大鼠模型海马组织中的表达显著提高(P<0.001),IL-1β在抑郁大鼠模型海马组织中的表达明显提高(P<0.01),当抑制Menin表达时,Caspase-3、NF-κB、IL-1β表达量会升高(P<0.001),当过表达Menin时,Caspase-3、NF-κB、IL-1β表达量则降低(P<0.001)。结论抑制miR-421表达可升高Menin表达,降低Caspase-3含量,减少神经炎症反应,从而改善抑郁症状。

基于PI3K/AKT/GSK-3β信号通路探讨EA改善APP/PS1双转基因小鼠认知功能障碍的内在机制

目的探讨鞣花酸(ellagicacid,EA)对APP/PS1双转基因小鼠认知功能的影响,并基于磷脂酰肌醇3-激酶/蛋白激酶B/糖原合成酶激酶-3(PI3K/AKT/GSK-3β)信号通路探讨鞣花酸对双转基因小鼠海马氧化应激水平的调节机制。方法将32只SPF级6月龄APP/PS1双转基因小鼠随机分为4组,即APP/PS1组、APP/PS1+EA组、APP/PS1+LY294002组、APP/PS1+EA+LY294002组,每组8只,另外选取8只SPF级C57BL/6J野生型小鼠(Wildtype)作为空白对照组,即WT组。APP/PS1+EA组给予50mg·kg^(-1)·d^(-1)灌胃EA;APP/PS1+LY294002组予以1.5mg·kg^(-1)·d^(-1)腹腔注射PI3K抑制剂LY294002;APP/PS1+EA+LY294002组予以50mg·kg^(-1)·d^(-1)灌胃EA,同时按1.5mg·kg^(-1)·d^(-1)腹腔注射LY294002;WT组和APP/PS1组于相同时间点灌胃等体积10%二甲基亚砜(DMSO)。每日给药1次,连续给药60天。Morris水迷宫检测小鼠学习和记忆能力,免疫组化、蛋白免疫印迹法检测PI3K、AKT、GSK-3β相关蛋白的表达,透射电镜观察小鼠海马组织超微结构变化。结果与WT组相比,其他四组的逃避潜伏期均增长(P<0.05),穿越平台次数明显减少(P<0.01);APP/PS1组、APP/PS1+LY294002组和APP/PS1+EA+LY294002组中的PI3K、AKT蛋白表达量显著降低(P<0.01),GSK-3β表达量显著升高(P<0.01);APP/PS1+EA组的PI3K表达量降低(P<0.05),AKT表达量显著降低(P<0.01),GSK-3β表达量升高(P<0.05);与WT组相比,APP/PS1组海马神经元细胞数目较少,线粒体结构破坏,大部分线粒体出现肿胀,线粒体的内膜和外模不完整,部分线粒体嵴消失,微管、微丝缠结,排列紊乱,而APP/PS1+EA组神经元细胞数较APP/PS1组增多,线粒体结构较清晰,可见清楚的线粒体嵴,线粒体轻度水肿。微管、微丝排列较整齐有序。结论鞣花酸改善AD模型小鼠的学习和记忆能力、减少海马神经元细胞损伤和凋亡,其作用机制可能是通过调节PI3K、AKT、GSK-3β等相关蛋白降低AD模型小鼠海马氧化应激水平。