Microglia:a promising therapeutic target in spinal cord injury

Microglia are present throughout the central nervous system and are vital in neural repair,nutrition,phagocytosis,immunological regulation,and maintaining neuronal function.In a healthy spinal cord,microglia are accountable for immune surveillance,however,when a spinal cord injury occurs,the microenvironment drastically changes,leading to glial scars and failed axonal regeneration.In this context,microglia vary their gene and protein expression during activation,and proliferation in reaction to the injury,influencing injury responses both favorably and unfavorably.A dynamic and multifaceted injury response is mediated by microglia,which interact directly with neurons,astrocytes,oligodendrocytes,and neural stem/progenitor cells.Despite a clear understanding of their essential nature and origin,the mechanisms of action and new functions of microglia in spinal cord injury require extensive research.This review summarizes current studies on microglial genesis,physiological function,and pathological state,highlights their crucial roles in spinal cord injury,and proposes microglia as a therapeutic target.

Rutin pretreatment promotes microglial M1 to M2 phenotype polarization

Microglial cells are important resident innate immune components in the central nervous system that are often activated during neuroinflammation.Activated microglia can display one of two phenotypes,M1 or M2,which each play distinct roles in neuroinflammation.Rutin,a dietary flavonoid,exhibits protective effects against neuroinflammation.However,whether rutin is able to influence the M1/M2 polarization of microglia remains unclear.In this study,in vitro BV-2 cell models of neuroinflammation were established using 100 ng/mL lipopolysaccharide to investigate the effects of 1-hour rutin pretreatment on microglial polarization.The results revealed that rutin pretreatment reduced the expression of the proinflammatory cytokines tumor necrosis factor-α,interleukin-1β,and interleukin-6 and increased the secretion of interleukin-10.Rutin pretreatment also downregulated the expression of the M1 microglial markers CD86 and inducible nitric oxide synthase and upregulated the expression of the M2 microglial markers arginase 1 and CD206.Rutin pretreatment inhibited the expression of Toll-like receptor 4 and myeloid differentiation factor 88 and blocked the phosphorylation of I kappa B kinase and nuclear factor-kappa B.These results showed that rutin pretreatment may promote the phenotypic switch of microglia M1 to M2 by inhibiting the Toll-like receptor 4/nuclear factor-kappa B signaling pathway to alleviate lipopolysaccharide-induced neuroinflammation.

Signal transducer and activator of transcription 3 promotes the Warburg effect possibly by inducing pyruvate kinase M2 phosphorylation in liver precancerous lesions

BACKGROUND Study shows that signal transducer and activator of transcription 3(STAT3) can increase the Warburg effect by stimulating hexokinase 2 in breast cancer and upregulate lactate dehydrogenase A and pyruvate dehydrogenase kinase 1 in myeloma. STAT3 and pyruvate kinase M2(PKM2) can also be activated and enhance the Warburg effect in hepatocellular carcinoma. Precancerous lesions are critical to human and rodent hepatocarcinogenesis. However, the underlying molecular mechanism for the development of liver precancerous lesions remains unknown. We hypothesized that STAT3 promotes the Warburg effect possibly by upregulating p-PKM2 in liver precancerous lesions in rats.AIM To investigate the mechanism of the Warburg effect in liver precancerous lesions in rats.METHODS A model of liver precancerous lesions was established by a modified Solt-Farber method. The liver pathological changes were observed by HE staining and immunohistochemistry. The transformation of WB-F344 cells induced with Nmethyl-N'-nitro-N-nitrosoguanidine and hydrogen peroxide was evaluated by the soft agar assay and aneuploidy. The levels of glucose and lactate in the tissue and culture medium were detected with a spectrophotometer. The protein levels of glutathione S-transferase-π, proliferating cell nuclear antigen(PCNA), STAT3,and PKM2 were examined by Western blot and immunofluorescence.RESULTS We found that the Warburg effect was increased in liver precancerous lesions in rats. PKM2 and p-STAT3 were upregulated in activated oval cells in liverprecancerous lesions in rats. The Warburg effect, p-PKM2, and p-STAT3 expression were also increased in transformed WB-F344 cells. STAT3 activation promoted the clonal formation rate, aneuploidy, alpha-fetoprotein expression,PCNA expression, G1/S phase transition, the Warburg effect, PKM2 phosphorylation, and nuclear translocation in transformed WB-F344 cells.Moreover, the Warburg effect was inhibited by stattic, a specific inhibitor of STAT3, and further reduced in transformed WB-F344 cells after the intervention for PKM2.CONCLUSION The Warburg effect is initiated in liver precancerous lesions in rats. STAT3 activation promotes the Warburg effect by enhancing the phosphorylation of PKM2 in transformed WB-F344 cells.

Evaluation of Component Activity in Molten MnO-SiO_(2)-Al_(2)O_(3)-CaO System with Model SELF-SReM4

A sub-regular solution model SELF-SReM4 used to evaluate activity of the components in a homogeneous region of a quaternary system has been developed in Shanghai Enhanced Laboratory of Ferrometallurgy.The application of SELF-SReM4 in C-Mn-Fe-Si system without the SiC formation has been introduced in previous paper.It’s application for molten slag of MnO-SiO2-Al2O3-CaO was introduced in this paper.They provide a basis for the prediction of the metal-slag equilibrium conditions.

Phytoremediation of Oil-Contaminated Soils by Combining Flowering Plant Cultivation and Inoculation with <i>Acinetobacter junii</i>Strain M-2

Oil contamination of the soil by petroleum products has become an enormous environmental problem. In this study, we examined whether remediation of oil-contaminated soils by cultivating three flowering plants (Mimosa, Gazania, and Zinnia) could be enhanced by inoculation with Acinetobacter junii strain M-2 at different plant growth stages (at sowing, at early growth, and at mid-growth). The growth of Zinnia cultivated in oil-contaminated soils inoculated at sowing was significantly superior to that in the non-inoculated soil. Although total petroleum hydrocarbon concentrations in soils inoculated at sowing were nominally lower than those in non-inoculated soils, especially in the case of Zinnia planting, the effect did not reach statistical significance. However, dehydrogenase activity was significantly higher in the soils inoculated with A. junii strain M-2 than in non-inoculated soils for all three plant species tested. These results demonstrate that a combination of ornamental plant cultivation (particularly Zinnia) and inoculation with A. junii strain M-2 increases the efficiency of oil-contaminated soil phytoremediation.

Function of microglia and macrophages in secondary damage after spinal cord injury

Spinal cord injury （SCI） is a devastating type of neurological trauma with limited therapeutic op- portunities. The pathophysiology of SCI involves primary and secondary mechanisms of injury. Among all the secondary injury mechanisms, the inflammatory response is the major contrib- utor and results in expansion of the lesion and further loss of neurologic function. Meanwhile, the inflammation directly and indirectly dominates the outcomes of SCI, including not only pain and motor dysfunction, but also preventingneuronal regeneration. Microglia and macrophages play very important roles in secondary injury. Microglia reside in spinal parenchyma and survey the microenvironment through the signals of injury or infection. Macrophages are derived from monocytes recruited to injured sites from the peripheral circulation. Activated resident microglia and monocyte-derived macrophages induce and magnify immune and inflammatory responses not only by means of their secretory moleculesand phagocytosis, but also through their influence on astrocytes, oligodendrocytes and demyelination. In this review, we focus on the roles of mi- croglia and macrophages in secondary injury and how they contribute to the sequelae of SCI.

几种SO_4^(2-)/M_xO_y型固体超强酸酯化催化活性的研究

以醋酸和乙醇酯化为模型反应 ,考察了SO2 - 4/γ -Al2 O3,SO2 - 4/ZrO2 ,SO2 - 4/Fe2 O3等几种SO2 - 4/MxOy 型固体超强酸及其不同的制备方法对酯化反应催化活性的影响 ,得出以FeSO4 ·7H2 O在550℃下直接焙烧 ,所得SO2 - 4/Fe2 O3型固体超强酸催化活性最佳 ,且酯化反应主要为固体超强酸催化剂表面上的B酸中心所催化的结论。

S_2O_8^(2-)/ZrO_2-M_xO_y(M=Al,Fe,Cr,Mn,Ti)固体超强酸催化剂的研制

制备了一系列金属氧化物MxOy(M =Al,Fe ,Cr,Mn ,Ti)促进的S2 O82 -/ZrO2 -MxOy 固体超强酸催化剂 .用乙酸和正丁醇的酯化反应研究了制备条件对催化剂活性的影响 .实验结果表明 ,催化剂对酯化反应有很高的催化活性 ,添加不同的金属氧化物对催化剂的酯化反应催化活性有不同的影响 ,其中Cr含量为 0 .5 %的催化剂S2 O82 -/ZrO2 -Cr2 O3 对乙酸和正丁醇的酯化反应具有很高的催化活性 ,乙酸的转化率高达 86 .1%,而在相同条件下 ,不加催化剂时乙酸的转化率仅为 2 6 .9%,制备条件对催化剂活性影响很大 .通过X射线衍射分析(XRD)证实 ,催化剂中ZrO2 主要以四方晶相 (Tetragonalphase)存在 ,少量以单斜晶相 (Monoclinicphase)存在 ,T相和S2 O82 -是保证催化剂活性的关键因素 .

融合蛋白M-IL-2(^(88)Arg,^(125)Ala)在毕赤酵母中的表达及抗肿瘤活性研究

构建融合基因蜂毒肽(melittin)与人变构白介素2(M-IL-2(88Arg,125Ala))毕赤酵母分泌型表达载体pPICZαA/M-IL-2(88Arg,125Ala),转化毕赤酵母菌株KM71H,甲醇诱导筛选出的多拷贝阳性菌株表达融合蛋白,纯化融合蛋白,并进行初步的抗肿瘤活性研究。经测序及PCR鉴定,M-IL-2(88Arg,125Ala)正确插入pPICZαA中,电转化后,重组载体通过同源重组整合到酵母基因组中,SDS-PAGE检测在26 ku左右有明显目的条带,与理论相符。经Western blot鉴定具有较高抗原性及特异性。BCA法测定甲醇诱导96 h融合蛋白表达量达315.2 mg/L。CCK-8法检测融合蛋白对人卵巢癌细胞SKOV3细胞及Hela细胞生长抑制作用,表明纯化的融合蛋白在体外能抑制人卵巢癌细胞SKOV3细胞及Hela细胞的生长增殖。该研究为融合蛋白M-IL-2(88Arg,125Ala)大规模制备和动物实验以及临床前期研究奠定了基础。

α-、β-雌二醇和中药有效成分ZDY101对CHOm_2转基因细胞M_2受体的影响

本文用细胞培养技术 ,对比观察了α -雌二醇 (α -E2 )、β -雌二醇 (β -E2 )和滋阴药有效成分ZDY10 1对转染M2 受体基因的CHO细胞M2 受体密度的影响。在CHOm2 转基因细胞培养 2 4h后 ,加入不同浓度的α -E2 、β -E2 或ZDY10 1。继续培养 4 8h后收集细胞 ,用3 H -QNB单点法测定M2 受体密度。发现α-E2 及 β -E2 在浓度为 1× 10 -5mol/L时 ,M2 受体密度明显高于对照组 ,与相同浓度的ZDY10 1作用相仿。以上结果提示 :由于α -E2 及β-E2 对M2 受体密度的作用相似 ,所以E2 对M2 受体的调整作用 ,其受体后的信息传递机制很可能与对雌性器官的调整作用是不同的 ;由于ZDY10 1与E2 结构上和调节M2 受体的作用有类似处 ,它和E2 及E2

“Unit 1 Hello!Lesson 2 I’m Ann.”教学设计

一、内容分析本课时为故事教学,继第一课时的故事学习后,讲述了Mocky带领Ann和Ken一同去Uncle Booky家认识他的过程。故事中Uncle Booky与Ann、Ken是初次见面,自然呈现了用"I’m..."来介绍自己以及用"What’s your name?"询问姓名的表达法,并通过Mocky有礼貌地向Uncle Booky打招呼及道别呈现了"Good morning"和"Goodbye"的用法。

M2型巨噬细胞在心肌梗死恢复期作用的研究进展

心肌梗死是心血管疾病中极其危重的疾病类型,具有高发病率和高死亡率。临床上,心肌梗死早期一般采用药物扩血管、溶栓及手术治疗,但是没有针对心肌梗死恢复期的特异性治疗。M2型巨噬细胞对心肌梗死后心功能的恢复体现在抑制炎症反应、促进血管生成和胶原蛋白形成的三个方面,且巨噬细胞极化状态的调节是心肌修复的关键。我们主要总结了M2型巨噬细胞的生物学功能及其在心肌梗死后发挥的作用,并阐述了重要的调控机制以期为心肌梗死恢复期治疗提供理论基础。

双原子位点M-N-C电催化剂在CO_(2)还原反应中活性位点的最佳分布

双原子位点M-N-C催化剂是催化CO_(2)还原反应(CO_(2)RR)性能最佳的催化剂之一.然而,目前的研究主要集中于M-N-C活性中心原子类型的调控,低估了活性位点的配位模式及分布对其催化性能的影响.本文选取典型的双原子位点M-N-C催化剂(NiFe-N-C)为研究对象,采用密度泛函理论方法探究了9种活性位点具有不同配位环境的NiFe-N-C催化剂电催化CO_(2)RR的反应机理.结果表明,随着金属原子配位数、双原子位点间距离的增加,M-N-C催化剂的稳定性、催化CO_(2)还原至CO的活性及抑制氢析出反应的选择性均呈现先升高后下降的趋势.其中,金属原子四配位且对称分布的NiFe-N-C-model 3催化剂,因其双原子位点的强相互作用表现出最优的催化性能.

Modulating poststroke inflammatory mechanisms: Novel aspects of mesenchymal stem cells, extracellular vesicles and microglia

Inflammation plays an important role in the pathological process of ischemic stroke,and systemic inflammation affects patient prognosis.As resident immune cells in the brain,microglia are significantly involved in immune defense and tissue repair under various pathological conditions,including cerebral ischemia.Although the differentiation of M1 and M2 microglia is certainly oversimplified,changing the activation state of microglia appears to be an intriguing therapeutic strategy for cerebral ischemia.Recent evidence indicates that both mesenchymal stem cells(MSCs)and MSC-derived extracellular vesicles(EVs)regulate inflammation and modify tissue repair under preclinical stroke conditions.However,the precise mechanisms of these signaling pathways,especially in the context of the mutual interaction between MSCs or MSC-derived EVs and resident microglia,have not been sufficiently unveiled.Hence,this review summarizes the state-ofthe-art knowledge on MSC-and MSC-EV-mediated regulation of microglial activity under ischemic stroke conditions with respect to various signaling pathways,including cytokines,neurotrophic factors,transcription factors,and microRNAs.

TET2上调IRAK-M表达促进巨噬细胞内毒素耐受

目的:研究TET2蛋白(ten-eleven translocation 2)对巨噬细胞白介素-1受体相关激酶-M(interleukin-1 receptor-associated kinase-M,IRAK-M)表达的影响,探讨细菌内毒素(endotoxin/lipopolysaccharide,LPS)刺激诱导TET2表达的上游信号通路。方法:用LPS刺激小鼠巨噬细胞系RAW264.7诱导内毒素耐受,qPCR和Western blot检测LPS刺激不同时间点和内毒素耐受时IRAK-M和TET2表达;用siRNA干扰TET2表达,qPCR和Western blot检测对IRAK-M表达的影响;用促分裂原活化的蛋白激酶(mitogen-activated protein kinase,MAPK)信号通路抑制剂预处理细胞,再用LPS刺激,qPCR和Western blot检测对TET2表达的影响。结果:TET2蛋白和IRAK-M在LPS刺激RAW264.7细胞诱导内毒素耐受后仍持续表达,且表达模式都和细胞因子表达模式相反;干扰TET2表达抑制IRAK-M m RNA(P=0.000)和蛋白水平表达;抑制MAPK信号通路抑制TET2表达。结论:巨噬细胞炎症反应过程中MAPK信号通路上调TET2表达,TET2通过促进IRAK-M表达促进内毒素耐受。

2-甲基丁酸对犊牛小肠酶活及葡萄糖转运载体基因表达的影响

【目的】断奶前后犊牛胃肠发育及其吸收与代谢功能会发生明显改变,尤其是断奶前的饲养管理显著影响犊牛胃肠的发育乃至以后的生产性能。2-甲基丁酸是一种短链支链挥发性脂肪酸,在瘤胃内主要来自于支链氨基酸的降解,可以作为反刍动物胃肠发育的调控剂。因此,通过研究2-甲基丁酸对断奶前后犊牛小肠消化酶活性、小肠黏膜生长激素受体和钠-葡萄糖共转运载体m RNA表达的影响,揭示2-甲基丁酸对犊牛小肠发育的作用机理。【方法】试验选用32头体重(44.7±0.3)kg、发育正常的15日龄哺乳荷斯坦公犊,随机分为4组,每组8头,对照组饲喂基础日粮,试验组分别在基础日粮基础上添加2-甲基丁酸3、6和9 g·d^(-1)。所有犊牛在45日龄断奶,分别于断奶前(30日龄)和断奶后(90日龄)从各组抽取4头,晨饲前称重后进行屠宰,采集十二指肠、空肠近端1/4处、空肠远端1/4处和回肠末端的内容物,采用比色法测定乳糖酶、淀粉酶、脂肪酶和胰蛋白酶的活性,采集十二指肠、空肠近端1/4处、空肠远端1/4处和回肠末端黏膜组织,采用实时荧光定量PCR技术检测小肠黏膜组织生长激素受体(GHR)和钠-葡萄糖共转运载体(SGLT^(-1))m RNA的表达。【结果】断奶后犊牛小肠各段乳糖酶活性显著低于断奶前,而断奶后犊牛小肠各段淀粉酶、脂肪酶和胰蛋白酶活性却显著高于断奶前。日粮添加2-甲基丁酸6和9 g·d^(-1)后,较3 g·d^(-1)和对照组显著提高断奶前犊牛空肠近端、空场远端和回肠乳糖酶活性(P<0.05),较3 g·d^(-1)和对照组显著提高断奶后犊牛十二指肠和回肠乳糖酶活性,较3 g·d^(-1)的2-甲基丁酸和对照组显著提高了断奶前后犊牛小肠各段脂肪酶、胰蛋白酶活性(P<0.05)。断奶后犊牛小肠各段黏膜GHR和SGLT^(-1)m RNA的表达均显著低于断奶前。日粮添加2-甲基丁酸6和9 g·d^(-1)后,较3 g·d^(-1)的2-甲基丁酸和对照组显著提高了断奶前后犊牛小肠各段黏膜GHR m RNA的表达(P<0.05),较对照组显著提高了断奶前后犊牛十二指肠黏膜SGLT^(-1)m RNA的表达(P<0.05),较3 g·d^(-1)和对照组显著提高了断奶前后犊牛空肠近端、空肠远端和回肠黏膜SGLT^(-1) m RNA的表达。【结论】结果提示,断奶前后犊牛日粮添加2-甲基丁酸能够增加小肠消化酶活性及小肠黏膜生长激素受体和钠-葡萄糖共转运载体m RNA的表达,综合以上指标分析,建议断奶前后犊牛日粮中2-甲基丁酸的最适添加量为6 g·d^(-1)。

CuO在Ce_(0.5)Zr_(0.5)O_2上的分散状态及其CO氧化性能的研究

以硝酸铈和硝酸锆为原料 ,采用共沉淀法制备了不同摩尔比 (0 ,0 .1,0 .2～ 0 .9,1.0 )的Cem Zr1-m O2 样品 .并以 Ce0 .5Zr0 .5O2 为载体 ,采用浸渍法负载不同含量的 Cu O,在色谱流动法上考察其对CO的氧化活性 .并用 XRD,TPR和 BET等技术对 Cu O/ Ce0 .5Zr0 .5O2 各样品进行了表征 .结果表明 ,当Cu O负载量为 5 .0 %时 ,其 CO的氧化活性最高 .XRD测定表明其氧化活性的高低与铜物种在 Ce0 .5Zr0 .5O2 上的分散状态有关 .TPR结果亦显示活性的高低与 Ce0 .5Zr0 .5O2 上分散较好的铜物种的 α还原峰及分散较差的γ还原峰的峰温及形状有关 .

重组人角质细胞生长因子-2基因的克隆、表达及活性

从人胚肺成纤维细胞中提取总RNA,利用RT-PCR法获得人角质细胞生长因子-2(hKGF-2)cDNA,并通过PCR方法扩增,再与原核表达载体pET3c连接后转化至BL21(DE3)宿主细胞中获得表达菌株.通过流加补料方式和发酵条件的控制,进行高密度培养,并通过IPTG诱导获得可溶性表达的目的产物.结果表明:目的蛋白占菌体总蛋白的30.0%以上;经阳离子交换层析、肝素亲和层析两步柱层析方法获得的rhKGF-2纯度高于99.0%.建立了利用转受体FGFR2-Ⅲb的BaF3细胞株进行rhKGF-2促增殖作用的活性测定方法,活性测定结果呈典型的S型曲线,并在一定范围内具有剂量依赖性.

间苯二酚二-(2-氯-4-羟基苯基)醚的合成与抑菌活性初步研究

为了寻求优良的苯醚类新化合物抑菌剂,本文设计合成了新化合物间苯二酚二-(2-氯-4-羟基苯基)醚,其结构经1HNMR、IR、MS和元素分析证实,并且对其抑菌活性进行了初步测试,初步研究结果表明:此化合物对大肠杆菌,金黄色葡萄球菌,白色念珠菌,白色葡萄球菌,变形杆菌,卡他双球菌,青枯假单胞菌具有一定的抗菌活性。

2-巯基苯并噻唑的合成与固体吸附剂对合成反应的影响

采用改进的苯胺硝基苯混合法代替传统的苯胺法合成2-巯基苯并噻唑(促进剂M),确定了最佳的合成条件:反应温度为240～260℃,反应时间为4h,产品收率大于80%.以活性氧化铝、二氧化硅和活性炭3种常见的固体吸附剂为催化剂,考察了固体吸附剂对合成反应的影响,催化效果明显:2-巯基苯并噻唑的收率由原来的80.6%提高到了85%以上,最高达到86.7%;反应时间由原来4h缩短为3h.