Membrane vesicles derived from Streptococcus suis serotype 2 induce cell pyroptosis in endothelial cells via the NLRP3/Caspase-1/GSDMD pathway

Streptococcus suis serotype 2(S.suis 2)is a zoonotic pathogen that clinically causes severe swine and human infections(such as meningitis,endocarditis,and septicemia).In order to cause widespread diseases in different organs,S.suis 2 must colonize the host,break the blood barrier,and cause exaggerated inflammation.In the last few years,most studies have focused on a single virulence factor and its influences on the host.Membrane vesicles(MVs)can be actively secreted into the extracellular environment contributing to bacteria-host interactions.Gram-negative bacteria-derived outer membrane vesicles(OMVs)were recently shown to activate host Caspase-11-mediated non-canonical inflammasome pathway via deliverance of OMV-bound lipopolysaccharide(LPS),causing host cell pyroptosis.However,little is known about the effect of the MVs from S.suis 2(Gram-positive bacteria without LPS)on cell pyroptosis.Thus,we investigated the molecular mechanism by which S.suis 2 MVs participate in endothelial cell pyroptosis.In this study,we used proteomics,electron scanning microscopy,fluorescence microscope,Western blotting,and bioassays,to investigate the MVs secreted by S.suis 2.First,we demonstrated that S.suis 2 secreted MVs with an average diameter of 72.04 nm,and 200 proteins in MVs were identified.Then,we showed that MVs were transported to cells via mainly dynamin-dependent endocytosis.The S.suis 2 MVs activated NLRP3/Caspase-1/GSDMD canonical inflammasome signaling pathway,resulting in cell pyroptosis,but it did not activate the Caspase-4/-5 pathway.More importantly,endothelial cells produce large amounts of reactive oxygen species(ROS)and lost their mitochondrial membrane potential under induction by S.suis 2 MVs.The results in this study suggest for the first time that MVs from S.suis 2 were internalized by endothelial cells via mainly dynamin-dependent endocytosis and might promote NLRP3/Caspase-1/GSDMD pathway by mitochondrial damage,which produced mtDNA and ROS under induction,leading to the pyroptosis of endothelial cells.

Enhanced ferromagnetism and conductivity of ultrathin freestanding La_(0.7)Sr_(0.3)MnO_(3)membranes

We report a universal method to transfer freestanding La_(0.7)Sr_(0.3)MnO_(3)membranes to target substrates.The 4-unit-cell-thick freestanding La_(0.7)Sr_(0.3)MnO_(3)membrane exhibits the enhanced ferromagnetism,conductivity and out-of-plane magnetic anisotropy,which otherwise shows nonmagnetic/antiferromagnetic and insulating behavior due to the intrinsic epitaxial strain.This work facilitates the promising applications of ultrathin freestanding correlated oxide membranes in electronics and spintronics.

The Measurement of Membrane Potential and NO3 Activity in Root Cells Using Ion-Selective Microelectrodes

Remobilisation of nitrate in plants, especially in vacuole of plant, is mostly related to the qua- lity of agricultural products and the high nitrogen use efficiency in plants. Ion-selective microelectrodes offer a non-destructive and non-interruptive method to measure NO 3 gradients and electric potential differences across both the plasma membrane and tonoplast. Thus, a double-barrelled microelectrode backfilled with a membrane sensor for NO 3 embedded in poly vinyl chloride (PVC) can record the NO 3 activity in cytoplasm and vacuole of a cell. This paper presented how to make this kind of microelectrode and how to do the intracellular measurements on intact plants. Our result showed that nitrate activity was about 2.7 mmol L 1 in cytoplasm while 70 mmol L 1 in vacuole, which implicated that vacuole was a pool of nitrate in plants.

Demethylation of miR-34a upregulates expression of membrane palmitoylated proteins and promotes the apoptosis of liver cancer cells

BACKGROUND Liver cancer is a common cancer and the main cause of cancer-related deaths worldwide.Liver cancer is the sixth most common cancer in the world.Although miR-34a and palmitoyl membrane palmitoylated protein(MPP2)are reportedly involved in various cell processes,their precise roles in liver cancer are still unclear.AIM To investigate the expression of micro RNA 34a(miR-34a),methylation of the miR-34a promoter and the expression of MPP2 in liver cancer cells and their related mechanisms.METHODS Together,78 cases of liver cancer tissues and 78 cases of adjacent tissues were collected.The methylation degree of miR-34a promoter in liver cancer/paracancerous tissue and liver cancer cells/normal liver cells,and the expression levels of miR-34a and MPP2 in the above samples were detected.Demethylation of liver cancer cells or transfection of liver cancer cells with miR-34a mimetic was performed.The MPP2 overexpression vector was used to transfect liver cancer cells,and the changes in proliferation,invasion,apoptosis,migration,and other biological functions of liver cancer cells after the above interventions were observed.Double luciferase reporter genes were used to detect the targeting relationship between miR-34a and MPP2.RESULTS Clinical samples showed that the expression levels of miR-34a and MPP2 in liver cancer tissues were lower than those in the normal tissues.The methylation degree of miR-34a promoter region in liver cancer cells was higher than that in normal liver cells.After miR-34a demethylation/mimetic transfection/MPP2 overexpression,the apoptosis of liver cancer cells was increased;the proliferation,invasion and migration capabilities were decreased;the expression levels of caspase 3,caspase 9,E-cadherin,and B-cell lymphoma 2(Bcl-2)-associated X protein were increased;and the expression levels of Bcl-2,N-cadherin,andβ-catenin were decreased.Double luciferase reporter genes confirmed that MPP2 is targeted by miR-34a.Rescue experiments showed that small interfering MPP2 could counteract the promoting effect of miR-34a demethylation on apoptosis and the inhibitory effect on cell proliferation,invasion,and migration.CONCLUSION miR-34a demethylation upregulates the expression level of MPP2 in liver cancer cells and promotes the apoptosis of liver cancer cells.miR-34a demethylation is a potential method for liver cancer treatment.

Effects of exogenous Ca^(2+) on the membrane permeability, MDA and SH group content of Alexandrium sp. LC3 under surfactant stress

The effect of Ca 2+ on the removal of Alexandrium sp. LC3 under HDTMAB stress was investigated. The results showed that the toxic effect of HDTMAB on Alexandrium sp. LC3 was significantly reduced in the presence of Ca 2+, especially under 4 mmol/L of Ca 2+. To understand the underlying mechanism, the SH group and MDA content of the cell membrane and membrane permeability were measured. It was found that the SH content of cell member increased, the MDA content and membrane permeability decreased when Alexandrium sp. was treated with Ca 2+ and HDTMAB complex, compared with using HDTMAB only. The data suggested that Ca 2+ might promote HDTMAB stress resistance of Alexandrium sp. LC3 by reducing the permeability and increasing the stability of cell membrane.

Radiation-induced cross-linking:a novel avenue to permanent 3D modification of polymeric membranes

Membrane fouling is always the biggest problem in the practice of membrane separation technologies,which strongly impacts their applicability,separation efficiency,cost effectiveness,and service lifespan.Herein,a simple but effective 3D modification approach was designed for permanently functionalizing polymeric membranes by directly cross-linking polyvinyl alcohol(PVA)under gamma-ray irradiation at room temperature without any additives.After the modification,a PVA layer was constructed on the membrane surface and the pore inner surface of polyvinylidene fluoride(PVDF)membranes.This endowed them with good hydrophilicity,low adsorption of protein model foulants,and easy recoverability properties.In addition,the pore size and distribution were customized by controlling the PVA concentration,which enhanced the rejection ability of the resultant membranes and converted them from microfiltration to ultrafiltration.The crosslinked PVA layer was equipped with the resultant membranes with good resistance to chemical cleaning by acidic,alkaline,and oxidative reagents,which could greatly prolong the membrane service lifetime.Furthermore,this approach was demonstrated as a universal method to modify PVDF membranes with other hydrophilic macromolecular modifiers,including polyethylene glycol,sodium alginate,and polyvinyl pyrrolidone.This modification of the membranes effectively endowed them with good hydrophilicity and antifouling properties,as expected.

溶酶体相关膜蛋白3通过VEGF/AKT通路抑制PC-3细胞增殖、转移及血管生成

目的探索LAMP3对PC-3细胞增殖、迁移及血管生成的影响。方法Western blot(WB)及RT-PCR检测LAMP3在正常前列腺上皮细胞及前列腺癌骨转移细胞中的表达。构建稳定沉默LAMP3的PC-3细胞,分别使用CCK8、划痕试验、Transwell试验检测LAMP3对PC-3细胞增殖、迁移与侵袭的影响。通过ELISA及血管生成试验检测血管内皮生长因子VEGF、基质金属酶MMP9的表达及HUVEC细胞的血管生成,最后使用WB及RT-PCR检测VEGF、AKT/p-AKT的表达。结果LAMP3在前列腺癌细胞中的表达较正常前列腺上皮细胞明显升高,以PC-3细胞最明显(P<0.05)。沉默LAMP3能抑制PC-3细胞的增殖、迁移与侵袭能力,同时能抑制VEGF、MMP9的表达及PC-3细胞诱导的血管生成,差异有统计学意义(P<0.05)。此外,LAMP3能下调PC-3细胞中VEGF、AKT/p-AKT的表达。结论LAMP3能通过调控VEGF/AKT通路影响PC-3细胞的增殖、转移和血管生成,LAMP3可能是前列腺癌骨转移的潜在治疗靶点之一。

用于C_(3)H_(6)/N_(2)分离的PDA@PEBA2533膜的制备

为回收聚丙烯制备尾气中的丙烯,采用本实验室独创的浸渍-旋转法在聚醚嵌段共聚酰胺(PEBA2533)膜表面沉积聚多巴胺(PDA)膜层制备出对C3H6具有更强亲和性的PDA@PEBA2533膜。利用扫描电子显微镜(SEM)和X射线衍射(XRD)对PDA颗粒和膜进行表征。考察了PDA沉积时间对膜形貌、结构以及分离性能的影响,也考察了温度和压力等操作条件对膜分离性能的影响。探索了PDA@PEBA2533膜对不同C3H6浓度的C_(3)H_(6)/N_(2)混合气的分离效果以及膜的长时间分离稳定性。结果表明,沉积PDA于PEBA2533膜表面有效提高了膜的分离性能。当沉积时间不小于24h时,可得到连续的PDA膜层,随沉积时间的增加,膜层逐渐增厚,气体渗透速率先增大后减小,选择性持续上升,沉积24h所制备的膜分离性能最佳。增大操作温度和压力,膜对C3H6和N2的渗透速率均增大,C_(3)H_(6)/N_(2)选择性则降低。增大混合气中C3H6浓度,膜对C3H6的渗透速率和选择性均呈现先上升后下降的趋势。在所制备的分离性能最好的PDA@PEBA2533膜上,0.2MPa时,对C3H6体积分数为20%的混合气,温度从0℃提高到50℃,C3H6渗透速率从8.25GPU增加到71.42GPU,C_(3)H_(6)/N_(2)选择性从22.92降低至10.14。在130h的气体分离实验中,该膜表现出良好的稳定性。该膜与其他分离C_(3)H_(6)/N_(2)混合气膜相比具有一定的优势。

Engineering Leaf-Like UiO-66-SO3H Membranes for Selective Transport of Cations

Metal–organic frameworks(MOFs)with angstrom-sized pores are promising functional nanomaterials for the fabrication of cation permselective membranes(MOF-CPMs).However,only a few research reports show successful preparation of the MOF-CPMs with good cation separation performance due to several inherent problems in MOFs,such as arduous selfassembly,poor water resistance,and tedious fabrication strategies.Besides,low cation permeation flux due to the absence of the cation permeation assisting functionalities in MOFs is another big issue,which limits their widespread use in membrane technology.Therefore,it is necessary to fabricate functional MOF-CPMs using simplistic strategies to improve cation permeation.In this context,we report a facile in situ smart growth strategy to successfully produce ultrathin(<600 nm)and leaflike UiO-66-SO3H membranes at the surface of anodic alumina oxide.The physicochemical characterizations confirm that sulfonated angstrom-sized ion transport channels exist in the as-prepared UiO-66-SO3H membranes,which accelerate the cation permeation(~3×faster than non-functionalized UiO-66 membrane)and achieve a high ion selectivity(Na^+/Mg^2+>140).The outstanding cation separation performance validates the importance of introducing sulfonic acid groups in MOF-CPMs.

MOF-Like 3D Graphene-Based Catalytic Membrane Fabricated by One-Step Laser Scribing for Robust Water Purification and Green Energy Production

Increasing both clean water and green energy demands for survival and development are the grand challenges of our age.Here,we successfully fabricate a novel multifunctional 3D graphene-based catalytic membrane(3D-GCM)with active metal nanoparticles(AMNs)loading for simultaneously obtaining the water purification and clean energy generation,via a“green”one-step laser scribing technology.The as-prepared 3D-GCM shows high porosity and uniform distribution with AMNs,which exhibits high permeated fluxes(over 100 L m^(−2) h^(−1))and versatile super-adsorption capacities for the removal of tricky organic pollutants from wastewater under ultra-low pressure-driving(0.1 bar).After adsorption saturating,the AMNs in 3D-GCM actuates the advanced oxidization process to self-clean the fouled membrane via the catalysis,and restores the adsorption capacity well for the next time membrane separation.Most importantly,the 3D-GCM with the welding of laser scribing overcomes the lateral shear force damaging during the long-term separation.Moreover,the 3D-GCM could emit plentiful of hot electrons from AMNs under light irradiation,realizing the membrane catalytic hydrolysis reactions for hydrogen energy generation.This“green”precision manufacturing with laser scribing technology provides a feasible technology to fabricate high-efficient and robust 3D-GCM microreactor in the tricky wastewater purification and sustainable clean energy production as well.

g-C_(3)N_(4)/MXene@Ag多功能膜制备及其水净化性能研究

通过真空辅助组装构建g-C_(3)N_(4)/MXene@Ag(CNMA)分离膜。研究表明,银纳米粒子的引入可以增强表面润湿性并优化传质通道,复合膜最高分离通量(对水包1,2-二氯乙烷乳液)为(6812.7±106)L m^(-2)h^(-1)bar^(-1),最大效率可达99.7%。值得注意的是,CNMA复合膜具有显著的抗污能力,在连续使用10次后仍保持稳定的分离性能。此外,MXene@Ag材料能够优化复合膜体系的能带结构,促进电子-空穴(e^(-)-h^(+))的有效空间分离,从而改善光电性能,实现对有机污染物(染料、抗生素)的高效去除,其中对亚甲基蓝染料的降解效率为98%。CNMA分离膜适用于有机污染物场景下的水环境修复,满足实际污水处理要求,具有十足的发展前景。

Effect of NdCl_3 on the Injury of Membrane and ABA Content under Osmotic Stress

Wheat seedlings grown in 0. 67 MPa Polyethylene glycol(PEG) , the relative water content(RWC) of leaves declined, the malondialdehyde(MDA) content and the permeability of plasma-membrane increased. The activity of superoxide dismutase (SOD) decreased, but that of peroxidase (POD) increased. At 3 h and 15 h osmotic treatment the abscisic acid(ABA) content showed two peaks respectively. When 0. 67 MPa PEG contained 35 4mol/L NdCl3 the RWC was higher than that of the control, the permeability of the plasma membrane and the MDA content were decreased. The activity of SOD of POD all increased by adding NdCl3. The ABA content showed only one peak at 24 h osmotic treatment, and the value of that peak declined obviously when treated with NdCl3.

Guiding of 150 keV O^(6+) ions through nanocapillaries in an uncoated Al_2O_3 membrane:special time dependence of the transmission profile width

This paper reports that the transmission of O6＋ ions with energy of 150keV through capillaries in an uncoated Al2O3 membrane was measured, and agreements with previously reported results in general angular distribution of the transmitted ions and the transmission fractions as a function of the tilt angle well fitted to Gaussian-like functions were observed. Due tousing an uncoated capillary membrane, our φc is larger than that using a gold-coated one with a smaller value of Ep/q, which suggests a larger equilibrium charge Q∞ in our experiment. The observed special width variation with time and a larger width than that using a smaller Ep/q were qualitatively explained by using mean-field classical transport theory based on a classical-trajectory Monte Carlo simulation.

Variation of peroxidase isoenzyme and biofilm of Phanerochaete chrysosporium in continuous membrane bioreactor for Reactive Brilliant Red X3-B treatment

The influence of a Reactive Brilliant Red X-3B （RBR X-3B） dye on the peroxidase isoenzyme ofPhanerochaete chrysosporium was determined, and the biofilm structure in a white rot fungal continuous membrane bioreactor （MBR） was also investigated by scanning electron microscope （SEM）. The variation of peroxidase isoenzyme and the decolorization rate in the continuous MBR were evaluated. The results showed that the 100 mg/L RBR X-3B could stimulate the production of the peroxidase isoenzyme in the shaking-flask culture. In addition, two new peroxidase isoenzyme bands with relative mobility （Rf） value of 0.27 and 0.28 appeared, but the activity was lower than the blank control of 11 d. In the continuous MBR, the system worked stably during the first 60 d, the main peroxidase isoenzyme bands existed and three new bands with Rf value of 0.10, 0.27, and 0.28 appeared. Meanwhile, the biofilm grew well and the average decolorization rate could reach 90.6%. But the bands of peroxidase isoenzyme decreased rapidly at day 65, only two bands with Rf value 0.24 and 0.26 existed, and the decolorization rate decreased to 78.3%. Therefore, 5 bottles of P. chrysosporium mycelial pellet were added into the MBR, and then the activity of the peroxidase isoenzyme and the decolorization rate had a slight recovery. Finally, the decolorization rate finally decreased to 75.2%. These results contribute to a comprehensive understanding of the variation of peroxidase isoenzyme and biofilm in continuous MBR by white rot fungi.

表面疏油Al_(2)O_(3)陶瓷膜的制备及表征

以氨水和无水氯化铝为原料,采用溶胶-凝胶法在SiC基体上制备了Al_(2)O_(3)陶瓷膜,以氟碳表面活性剂Capstone FS-50为改性剂,通过真空浸渍法对所制备的Al_(2)O_(3)膜进行疏油改性。结果表明,制备的膜孔径分布均匀,表面无裂纹和针孔缺陷,Capstone FS-50改性前后膜通量和孔结构几乎不变。Capstone FS-50能均匀附载在Al_(2)O_(3)膜表面,使其展现出良好的疏油性能(表面接触角最大为130°),在温度低于200℃时,改性陶瓷膜仍具有较好的疏油性和良好的耐磨性能。

还原氧化石墨烯膜负载Co_(3)O_(4)活化过硫酸氢钾降解罗丹明B

以RGO(还原氧化石墨烯膜)为载体,采用水热法制备RGO/Co_(3)O_(4)高效复合催化剂。通过XRD(X射线衍射仪)、SEM(扫描电子显微镜)和XPS(X射线光电子能谱仪)等手段对复合催化剂的结构、形貌和化学组成等进行表征,并以RhB(罗丹明B)为降解物评价复合催化剂活化PMS(过硫酸氢钾)的反应活性。另外,考察了PMS质量浓度、RhB初始质量浓度、pH值及温度对催化剂活化PMS降解RhB的影响。结果表明:在PMS质量浓度为100 mg/L、RhB初始质量浓度为10 mg/L、pH值为7、温度为25℃时反应18 min对RhB降解率为98%。自由基捕获实验结合ESR(电子顺磁共振)结果表明体系中同时存在SO_(4)^(-·)和HO·2种活性自由基。循环实验结果显示催化剂经过5次循环使用后对RhB的降解率仍保持90%以上,显示优异的循环稳定性。

Preparation of Thin Film Composite Nanofiltration Membrane by Interfacial Polymerization with 3,5-Diaminobenzoylpiperazine and Trimesoyl Chloride

新芳香的肼， 3,5-diaminobenzoylpiperazine (3,5-DABP ) ，从 3,5-diaminobenzoic 酸和 1 甲酰 piperazine 被综合。3,5-DABP 的结构被英尺红外系列和 1H NMR 系列识别。与是的 3,5-DABP 水的单体和 trimesoyl 氯化物(TMC ) 作为器官的单体，薄电影合成(TFC ) nanofiltration 膜被界面的聚合技术准备。这些 TFC 膜的盐拒绝顺序是 Na2SO4 > MgSO4 > MgCl2 > NaCl。这个序列显示膜否定地被控告。

人类白细胞抗原-DQA1、细胞色素P4503A5*3基因多态性与特发性膜性肾病遗传易感性关联性研究

目的:探讨分析人类白细胞抗原(HLA)-DQA1、细胞色素P450(CYP)3A5*3基因多态性与特发性膜性肾病(IMN)遗传易感性的关联性。方法:将IMN患者62例作为研究组,另将健康者62例作为对照组。采用聚合酶链反应(PCR)技术和基因测序技术检测入组患者的HLA-DQA1(rs2187668)、CYP3A5*3(rs776746)基因型,判断各基因型与IMN患者的关系。结果:研究组中HLA-DQA1 rs2187668基因型AA占比高于对照组(P<0.05),基因型GG、AG占比低于对照组(均P<0.05);研究组等位基因A占比高于对照组(P<0.05)。研究组与对照组CYP3A5*3 rs776746不同基因型占比及等位基因占比比较无统计学差异(均P>0.05)。HLA-DQA1 rs2187668AA基因型IMN患者24 h尿蛋白量和血肌酐水平显著高于AG和GG型,肾小球滤过率显著低于AG和GG型(均P<0.05)。结论:HLA-DQA1 rs2187668位点的基因多态性与IMN的发生有关,AA基因型和等位基因A可增加IMN易感性。

Magnetic field aligned orderly arrangement of Fe3O4 nanoparticles in CS/PVA/Fe3O4 membranes

The CS/PVA/Fe_3O_4 nanocomposite membranes with chainlike arrangement of Fe_3O_4 nanoparticles are prepared by a magnetic-field-assisted solution casting method. The aim of this work is to investigate the relationship between the microstructure of the magnetic anisotropic CS/PVA/Fe_3O_4 membrane and the evolved macroscopic physicochemical property. With the same doping content, the relative crystallinity of CS/PVA/Fe_3O_4-M is lower than that of CS/PVA/Fe_3O_4.The Fourier transform infrared spectroscopy（FT-TR） measurements indicate that there is no chemical bonding between polymer molecule and Fe_3O_4 nanoparticle. The Fe_3O_4 nanoparticles in CS/PVA/Fe_3O_4 and CS/PVA/Fe_3O_4-M are wrapped by the chains of CS/PVA, which is also confirmed by scanning electron microscopy（SEM） and x-ray diffraction（XRD）analysis. The saturation magnetization value of CS/PVA/Fe_3O_4-M obviously increases compared with that of non-magnetic aligned membrane, meanwhile the transmittance decreases in the UV-visible region. The o-Ps lifetime distribution provides information about the free-volume nanoholes present in the amorphous region. It is suggested that the microstructure of CS/PVA/Fe_3O_4 membrane can be modified in its curing process under a magnetic field, which could affect the magnetic properties and the transmittance of nanocomposite membrane. In brief, a full understanding of the relationship between the microstructure and the macroscopic property of CS/PVA/Fe_3O_4 nanocomposite plays a vital role in exploring and designing the novel multifunctional materials.

低成本Nb掺杂Li_(7)La_(3)Zr_(2)O_(12)固态电解质的性能与应用研究

固态电池因其在能量密度、循环寿命和安全性等方面的优异性能受到关注。其核心组件为固态电解质材料。具有石榴石结构的Li_(7)La_(3)Zr_(2)O_(12)(LLZO)氧化物固态电解质由于具备宽电化学窗口、良好的离子传导性、稳定的化学性能及简单的制备工艺等特点而得到广泛研究。本研究采用Nb元素对LLZO进行掺杂,成功制备得到Li_(6.75)La_(3)Zr_(1.75)Nb_(0.25)O_(12)(LLZNO)氧化物固态电解质,其离子电导率达到了7.79×10^(-4)S/cm,且制备成本与未掺杂的LLZO相比无明显增加。将其涂覆在聚乙烯(PP)隔膜表面形成PP-LLZNO隔膜,表现出良好的热稳定性和离子电导率。与Al_(2)O_(3)涂覆隔膜或固态电解质Li_(6.75)La_(3)Zr_(1.75)Ta_(0.25)O_(12)(LLZTO)涂覆隔膜组装的电池相比,组装了PP-LLZNO涂覆隔膜的扣式电池和软包电池的容量保持率分别达到了84.99%(50圈)和57.40%(100圈),展现出更优异的性能。因此,高离子电导率和低成本LLZNO的制备对固态电解质的大规模生产及在固态电池中的广泛应用具有一定的参考意义。