Tranylcypromine upregulates Sestrin 2 expression to ameliorate NLRP3-related noise-induced hearing loss

Noise-induced hearing loss is the primary non-genetic factor contributing to auditory dysfunction.However,there are currently no effective pharmacological interventions for patients with noise-induced hearing loss.Here,we present evidence suggesting that the lysine-specific demethylase 1 inhibitor–tranylcypromine is an otoprotective agent that could be used to treat noise-induced hearing loss,and elucidate its underlying regulatory mechanisms.We established a mouse model of permanent threshold shift hearing loss by exposing the mice to white broadband noise at a sound pressure level of 120 d B for 4 hours.We found that tranylcypromine treatment led to the upregulation of Sestrin2(SESN2)and activation of the autophagy markers light chain 3B and lysosome-associated membrane glycoprotein 1 in the cochleae of mice treated with tranylcypromine.The noise exposure group treated with tranylcypromine showed significantly lower average auditory brainstem response hearing thresholds at click,4,8,and 16 k Hz frequencies compared with the noise exposure group treated with saline.These findings indicate that tranylcypromine treatment resulted in increased SESN2,light chain 3B,and lysosome-associated membrane glycoprotein 1 expression after noise exposure,leading to a reduction in levels of 4-hydroxynonenal and cleaved caspase-3,thereby reducing noise-induced hair cell loss.Additionally,immunoblot analysis demonstrated that treatment with tranylcypromine upregulated SESN2 expression via the autophagy pathway.Tranylcypromine treatment also reduced the production of NOD-like receptor family pyrin domaincontaining 3(NLRP3)production.In conclusion,our results showed that tranylcypromine treatment ameliorated cochlear inflammation by promoting the expression of SESN2,which induced autophagy,thereby restricting NLRP3-related inflammasome signaling,alleviating cochlear hair cell loss,and protecting hearing function.These findings suggest that inhibiting lysine-specific demethylase 1 is a potential therapeutic strategy for preventing hair cell loss and noise-induced hearing loss.

基于NOD样受体3炎性小体通路对利拉鲁肽在氧化低密度脂蛋白诱导内皮细胞损伤的作用机制研究

背景动脉粥样硬化是世界范围内引起心脑血管疾病最主要的原因,炎症是目前研究热点,其中NOD样受体3(NLRP3)是研究最为深入的炎症小体。胰高糖素样肽1(GLP-1)受体激动剂有抗动脉粥样硬化作用,具体机制尚不明确。目的研究利拉鲁肽通过拮抗氧化低密度脂蛋白(ox-LDL)诱导的内皮细胞损伤的作用机制。方法2022-03-25—05-19培养人脐静脉内皮细胞(HUVEC),取HUVEC加空白血清作为对照组,100μg/mL的ox-LDL干预HUVEC 48 h作为模型组,100μg/mL的ox-LDL干预HUVEC 24 h后分别加入100、200、400 nmol/L利拉鲁肽处理24 h作为利拉鲁肽低浓度组、利拉鲁肽中浓度组、利拉鲁肽高浓度组。CCK-8法计算细胞增殖率。通过扫描电镜观察焦亡细胞形态。检测乳酸脱氢酶(LDH)活力。酶联免疫吸附试验(ELISA)检测白介素(IL)-1β、IL-18表达水平。蛋白质免疫印迹试验(Western blot)检测NLRP3、接头蛋白凋亡相关斑点样蛋白(ASC)、天冬氨酸蛋白水解酶1(Caspase-1)、焦亡执行蛋白(GSDMD)、N端结构域的焦亡执行蛋白(N-GSDMD)表达水平。结果模型组、利拉鲁肽低浓度组和利拉鲁肽中浓度组细胞增殖率低于对照组,利拉鲁肽低浓度组、利拉鲁肽中浓度组、利拉鲁肽高浓度组细胞增殖率高于模型组(P<0.05)。细胞扫描电镜结果示模型组细胞焦亡明显,利拉鲁肽低浓度组、利拉鲁肽中浓度组、利拉鲁肽高浓度组细胞焦亡情况明显改善。模型组、利拉鲁肽低浓度组LDH活力高于对照组,利拉鲁肽低浓度组、利拉鲁肽中浓度组、利拉鲁肽高浓度组低于模型组(P<0.05)。模型组、利拉鲁肽低浓度组IL-1β表达水平高于对照组,利拉鲁肽中浓度组、利拉鲁肽高浓度组IL-1β表达水平低于模型组(P<0.05);模型组IL-18表达水平高于对照组,利拉鲁肽低浓度组、利拉鲁肽中浓度组、利拉鲁肽高浓度组IL-18表达水平低于模型组(P<0.05)。模型组NLRP3、ASC、Caspase-1、GSDMD、N-GSDMD表达水平高于对照组,利拉鲁肽低浓度组ASC、Caspase-1表达水平高于对照组,利拉鲁肽中浓度组NLRP3、ASC表达水平低于模型组,利拉鲁肽高浓度组NLRP3、ASC、Caspase-1表达水平低于模型组(P<0.05)。结论利拉鲁肽显著抑制ox-LDL诱导的内皮细胞NLRP3炎性小体活化,并且能够抑制内皮细胞的焦亡,具有抗动脉粥样硬化作用。

3'-Deoxyadenosin alleviates methamphetamine-induced aberrant synaptic plasticity and seeking behavior by inhibiting the NLRP3 inflammasome

Methamphetamine addiction is a brain disorder characterized by persistent drug-seeking behavior, which has been linked with aberrant synaptic plasticity. An increasing body of evidence suggests that aberrant synaptic plasticity is associated with the activation of the NOD-like receptor family pyrin domain containing-3(NLRP3) inflammasome. 3′-Deoxyadenosin, an active component of the Chinese fungus Cordyceps militaris, has strong anti-inflammatory effects. However, whether 3′-deoxyadenosin attenuates methamphetamine-induced aberrant synaptic plasticity via an NLRP3-mediated inflammatory mechanism remains unclear. We first observed that 3′-deoxyadenosin attenuated conditioned place preference scores in methamphetamine-treated mice and decreased the expression of c-fos in hippocampal neurons. Furthermore, we found that 3′-deoxyadenosin reduced the aberrant potentiation of glutamatergic transmission and restored the methamphetamine-induced impairment of synaptic plasticity. We also found that 3′-deoxyadenosin decreased the expression of NLRP3 and neuronal injury. Importantly, a direct NLRP3 deficiency reduced methamphetamine-induced seeking behavior, attenuated the impaired synaptic plasticity, and prevented neuronal damage. Finally, NLRP3 activation reversed the effect of 3′-deoxyadenosin on behavior and synaptic plasticity, suggesting that the anti-neuroinflammatory mechanism of 3′-deoxyadenosin on aberrant synaptic plasticity reduces methamphetamine-induced seeking behavior. Taken together, 3′-deoxyadenosin alleviates methamphetamine-induced aberrant synaptic plasticity and seeking behavior by inhibiting the NLRP3 inflammasome.

The emerging role of mesenchymal stem cell-derived extracellular vesicles to ameliorate hippocampal NLRP3 inflammation induced by binge-like ethanol treatment in adolescence

Our previous studies have reported that activation of the NLRP3(NOD-,LRR-and pyrin domain-containing protein 3)-inflammasome complex in ethanol-treated astrocytes and chronic alcohol-fed mice could be associated with neuroinflammation and brain damage.Mesenchymal stem cell-derived extracellular vesicles(MSC-EVs)have been shown to restore the neuroinflammatory response,along with myelin and synaptic structural alterations in the prefrontal cortex,and alleviate cognitive and memory dysfunctions induced by binge-like ethanol treatment in adolescent mice.Considering the therapeutic role of the molecules contained in mesenchymal stem cell-derived extracellular vesicles,the present study analyzed whether the administration of mesenchymal stem cell-derived extracellular vesicles isolated from adipose tissue,which inhibited the activation of the NLRP3 inflammasome,was capable of reducing hippocampal neuroinflammation in adolescent mice treated with binge drinking.We demonstrated that the administration of mesenchymal stem cell-derived extracellular vesicles ameliorated the activation of the hippocampal NLRP3 inflammasome complex and other NLRs inflammasomes(e.g.,pyrin domain-containing 1,caspase recruitment domain-containing 4,and absent in melanoma 2,as well as the alterations in inflammatory genes(interleukin-1β,interleukin-18,inducible nitric oxide synthase,nuclear factor-kappa B,monocyte chemoattractant protein-1,and C–X3–C motif chemokine ligand 1)and miRNAs(miR-21a-5p,miR-146a-5p,and miR-141-5p)induced by binge-like ethanol treatment in adolescent mice.Bioinformatic analysis further revealed the involvement of miR-21a-5p and miR-146a-5p with inflammatory target genes and NOD-like receptor signaling pathways.Taken together,these findings provide novel evidence of the therapeutic potential of MSC-derived EVs to ameliorate the hippocampal neuroinflammatory response associated with NLRP3 inflammasome activation induced by binge drinking in adolescence.

Pyrimethamine upregulates BNIP3 to interfere SNARE-mediated autophagosome-lysosomal fusion in hepatocellular carcinoma

Hepatocellular carcinoma (HCC) is one of the most common tumor types and remains a major clinical challenge. Increasing evidence has revealed that mitophagy inhibitors can enhance the effect of chemotherapy on HCC. However, few mitophagy inhibitors have been approved for clinical use in humans. Pyrimethamine (Pyr) is used to treat infections caused by protozoan parasites. Recent studies have reported that Pyr may be beneficial in the treatment of various tumors. However, its mechanism of action is still not clearly defined. Here, we found that blocking mitophagy sensitized cells to Pyr-induced apoptosis. Mechanistically, Pyr potently induced the accumulation of autophagosomes by inhibiting autophagosome-lysosome fusion in human HCC cells. In vitro and in vivo studies revealed that Pyr blocked autophagosome-lysosome fusion by upregulating BNIP3 to inhibit synaptosomal-associated protein 29 (SNAP29)-vesicle-associated membrane protein 8 (VAMP8) interaction. Moreover, Pyr acted synergistically with sorafenib (Sora) to induce apoptosis and inhibit HCC proliferation in vitro and in vivo. Pyr enhances the sensitivity of HCC cells to Sora, a common chemotherapeutic, by inhibiting mitophagy. Thus, these results provide new insights into the mechanism of action of Pyr and imply that Pyr could potentially be further developed as a novel mitophagy inhibitor. Notably, Pyr and Sora combination therapy could be a promising treatment for malignant HCC.

Loss-of-function mutations of microRNA-142-3p promote ASH1L expression to induce immune evasion and hepatocellular carcinoma progression

BACKGROUND Hepatocellular carcinoma(HCC)has been a pervasive malignancy throughout the world with elevated mortality.Efficient therapeutic targets are beneficial to treat and predict the disease.Currently,the exact molecular mechanisms leading to the progression of HCC are still unclear.Research has shown that the microRNA-142-3p level decreases in HCC,whereas bioinformatics analysis of the cancer genome atlas database shows the ASH1L expression increased among liver tumor tissues.In this paper,we will explore the effects and mechanisms of microRNA-142-3p and ASH1L affect the prognosis of HCC patients and HCC cell bioactivity,and the association between them.AIM To investigate the effects and mechanisms of microRNA-142-3p and ASH1L on the HCC cell bioactivity and prognosis of HCC patients.METHODS In this study,we grouped HCC patients according to their immunohistochemistry results of ASH1L with pathological tissues,and retrospectively analyzed the prognosis of HCC patients.Furthermore,explored the roles and mechanisms of microRNA-142-3p and ASH1L by cellular and animal experiments,which involved the following experimental methods:Immunohistochemical staining,western blot,quantitative real-time-polymerase chain reaction,flow cytometric analysis,tumor xenografts in nude mice,etc.The statistical methods involved in this study contained t-test,one-way analysis of variance,theχ^(2)test,the Kaplan-Meier approach and the log-rank test.RESULTS In this study,we found that HCC patients with high expression of ASH1L possess a more recurrence rate as well as a decreased overall survival rate.ASH1L promotes the tumorigenicity of HCC and microRNA-142-3p exhibits reduced expression in HCC tissues and interacts with ASH1L through targeting the ASH1L 3′untranslated region.Furthermore,microRNA-142-3p promotes apoptosis and inhibits proliferation,invasion,and migration of HCC cell lines in vitro via ASH1L.For the exploration mechanism,we found ASH1L may promote an immunosuppressive microenvironment in HCC and ASH1L affects the expression of the cell junction protein zonula occludens-1,which is potentially relevant to the immune system.CONCLUSION Loss function of microRNA-142-3p induces cancer progression and immune evasion through upregulation of ASH1L in HCC.Both microRNA-142-3p and ASH1L can feature as new biomarker for HCC in the future.

Inhibition of the NLRP3 inflammasome attenuates spiral ganglion neuron degeneration in aminoglycoside-induced hearing loss

Aminoglycosides are a widely used class of antibacterials renowned for their effectiveness and broad antimicrobial spectrum.However,their use leads to irreversible hearing damage by causing apoptosis of hair cells as their direct target.In addition,the hearing damage caused by aminoglycosides involves damage of spiral ganglion neurons upon exposure.To investigate the mechanisms underlying spiral ganglion neuron degeneration induced by aminoglycosides,we used a C57BL/6J mouse model treated with kanamycin.We found that the mice exhibited auditory deficits following the acute loss of outer hair cells.Spiral ganglion neurons displayed hallmarks of pyroptosis and exhibited progressive degeneration over time.Transcriptomic profiling of these neurons showed significant upregulation of genes associated with inflammation and immune response,particularly those related to the NLRP3 inflammasome.Activation of the canonical pyroptotic pathway in spiral ganglion neurons was observed,accompanied by infiltration of macrophages and the release of proinflammatory cytokines.Pharmacological intervention targeting NLRP3 using Mcc950 and genetic intervention using NLRP3 knockout ameliorated spiral ganglion neuron degeneration in the injury model.These findings suggest that NLRP3 inflammasome-mediated pyroptosis plays a role in aminoglycoside-induced spiral ganglion neuron degeneration.Inhibition of this pathway may offer a potential therapeutic strategy for treating sensorineural hearing loss by reducing spiral ganglion neuron degeneration.

Self-recoverable NIR mechanoluminescence from Cr^(3+) doped perovskite type aluminate

Mechanoluminescent(ML)materials,which have the ability to convert mechanical energy to optical energy,have found huge promising applications such as in stress imaging and anti-counterfeiting.However,the main reported ML phosphors are based on trap-related ones,thus hindering the practical applications due to the requirement of complex light pre-irradiation process.Here,a self-recoverable near infrared(NIR)ML material of Lali-xO:xCr^(3+)(x=0.2%,0.4%,0.6%,0.8%,1.0%,and 1.2%)has been developed.Based on the preheating method and corresponding ML performance analysis,the influences of residual carriers are eliminated and the detailed dynamic luminescence process analysis is realized.Systematic experiments are conducted to reveal the origin of the ML emissions,demonstrating that ML is dictated more by the non-centrosymmetric piezoelectric crystal characteristic.In general,this work has provided significant references for exploring more efficient NIR ML materials,which may provide potential applications in anti-counterfeiting and bio-stress sensing.

New 4-imino-4H-Chromeno[2,3-d]Pyrimidin-3(5H)-Amine: Synthesis, Cytotoxic Effects on Tumoral Cell Lines and in Silico ADMET Properties

The synthesis of new 4-imino-4H-chromeno[2,3-d]pyrimidin-3(5H)-amine in four steps including one step under microwave dielectric heating is reported. The structural identity of the synthesized compounds was established according to their spectroscopic analysis, such as FT-IR, NMR and mass spectroscopy. These new compounds were tested for their antiproliferative activities on seven representative human tumoral cell lines (Huh7 D12, Caco2, MDA-MB231, MDA-MB468, HCT116, PC3 and MCF7) and also on fibroblasts. Among them, only the compounds 6c showed micromolar cytotoxic activity on tumor cell lines (1.8 50 50 > 25 μM). Finally, in silico ADMET studies ware performed to investigate the possibility of using of the identified compound 6c as potential anti-tumor compound.

基于Rhino和3Dmine的露天煤矿边坡三维数值模型构建

针对露天煤矿边坡人工地表起伏突出和自然地层相对平滑的几何特点,以Rhino和3Dmine软件为过渡平台,以Nurbs和DTM曲面差值处理方法分别对露天煤矿地表和地层进行处理,最终在Rhino中完成露天煤矿边坡三维数值模型网格的划分及输出,实现兼顾人工地表特征和自然地层特征的露天煤矿边坡三维数值模型的全程可视化构建。工程案例分析结果表明:此方法所构建的数值模型可充分体现露天煤矿三维边坡的几何特点。

Cortico-striatal gamma oscillations are modulated by dopamine D3 receptors in dyskinetic rats

Long-term levodopa administration can lead to the development of levodopa-induced dyskinesia.Gamma oscillations are a widely recognized hallmark of abnormal neural electrical activity in levodopa-induced dyskinesia.Currently,studies have reported increased oscillation power in cases of levodopa-induced dyskinesia.However,little is known about how the other electrophysiological parameters of gamma oscillations are altered in levodopa-induced dyskinesia.Furthermore,the role of the dopamine D3 receptor,which is implicated in levodopa-induced dyskinesia,in movement disorder-related changes in neural oscillations is unclear.We found that the cortico-striatal functional connectivity of beta oscillations was enhanced in a model of Parkinson’s disease.Furthermore,levodopa application enhanced cortical gamma oscillations in cortico-striatal projections and cortical gamma aperiodic components,as well as bidirectional primary motor cortex(M1)↔dorsolateral striatum gamma flow.Administration of PD128907(a selective dopamine D3 receptor agonist)induced dyskinesia and excessive gamma oscillations with a bidirectional M1↔dorsolateral striatum flow.However,administration of PG01037(a selective dopamine D3 receptor antagonist)attenuated dyskinesia,suppressed gamma oscillations and cortical gamma aperiodic components,and decreased gamma causality in the M1→dorsolateral striatum direction.These findings suggest that the dopamine D3 receptor plays a role in dyskinesia-related oscillatory activity,and that it has potential as a therapeutic target for levodopa-induced dyskinesia.

3D printing of poly(ethyleneimine)-functionalized Mg-Al mixed metal oxide monoliths for direct air capture of CO_(2)

Direct air capture(DAC)of CO_(2)plays an indispensable role in achieving carbon-neutral goals as one of the key negative emission technologies.Since large air flows are required to capture the ultradilute CO_(2)from the air,lab-synthesized adsorbents in powder form may cause unacceptable gas pressure drops and poor heat and mass transfer efficiencies.A structured adsorbent is essential for the implementation of gas-solid contactors for cost-and energy-efficient DAC systems.In this study,efficient adsorbent poly(ethyleneimine)(PEI)-functionalized Mg-Al-CO_(3)layered double hydroxide(LDH)-derived mixed metal oxides(MMOs)are three-dimensional(3D)printed into monoliths for the first time with more than 90%adsorbent loadings.The printing process has been optimized by initially printing the LDH powder into monoliths followed by calcination into MMO monoliths.This structure exhibits a 32.7%higher specific surface area and a 46.1%higher pore volume,as compared to the direct printing of the MMO powder into a monolith.After impregnation of PEI,the monolith demonstrates a large adsorption capacity(1.82 mmol/g)and fast kinetics(0.7 mmol/g/h)using a CO_(2)feed gas at 400 ppm at 25℃,one of the highest values among the shaped DAC adsorbents.Smearing of the amino-polymers during the post-printing process affects the diffusion of CO_(2),resulting in slower adsorption kinetics of pre-impregnation monoliths compared to post-impregnation monoliths.The optimal PEI/MeOH ratio for the post-impregnation solution prevents pores clogging that would affect both adsorption capacity and kinetics.

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。

血清KLF2、NOS3水平对大动脉粥样硬化型急性脑梗死患者的诊断及病情评估价值

[目的]探讨锌指样转录因子2(KLF2)、内皮型一氧化氮合酶3(NOS3)水平在大动脉粥样硬化(LAA)型急性脑梗死(ACI)患者诊断及病情评估中的价值。[方法]将150例LAA型ACI患者根据病情分为轻度组(n=36)、中度组(n=48)和重度组(n=66),另选取同期门诊健康体检者设为对照组(n=150)。比较各组血清KLF2、NOS3水平;ROC曲线分别分析血清KLF2、NOS3水平对LAA型ACI的诊断价值和对发生重度LAA型ACI的预测价值。[结果]LAA型ACI组患者血清KLF2、NOS3水平显著低于对照组(P<0.05)。轻、中、重度组LAA型ACI患者血清KLF2、NOS3水平依次显著降低(P<0.05)。血清KLF2、NOS3二者联合诊断LAA型ACI的AUC为0.858,灵敏度为73.33%,特异度为86.00%,优于KLF2、NOS3各自单独诊断(Z联合检测-KLF2=3.796,Z联合检测-NOS3=4.689,均P<0.001)。血清KLF2、NOS3二者联合预测发生重度LAA型ACI的AUC为0.878,灵敏度为77.27%,特异度为90.48%,优于KLF2、NOS3各自单独预测(Z联合检测-KLF2=2.401,P=0.016;Z联合检测-NOS3=3.070,P=0.002)。[结论]LAA型ACI患者血清KLF2、NOS3水平显著降低,且与病情严重程度显著负相关,二者联合应用对LAA型ACI诊断和病情预测具有较高的评估效能。

秋水仙碱通过激动PI3K/AKT/eNOS信号通路对急性心肌梗死大鼠心功能的影响

目的:探究秋水仙碱通过调节磷脂酰肌醇3-激酶(PI3K)/蛋白激酶B(AKT)/内皮型一氧化氮合酶(eNOS)信号通路对急性心肌梗死(AMI)大鼠心功能的影响。方法:78只大鼠中随机选取12只作为假手术组,剩余大鼠构建AMI模型,造模成功大鼠分为模型组、秋水仙碱组[4 mg/(kg·d)]、秋水仙碱[4 mg/(kg·d)]+LY294002(20 mg/mL)组、秋水仙碱[4 mg/(kg·d)]+MK-2206(60μg/mL)组、秋水仙碱[4 mg/(kg·d)]+L-NAME(1.6 mg/mL)组,每组12只。超声心动图检测大鼠左心室舒张末期内径(LVEDD)、左心室收缩末期内径(LVESD)、射血分数(EF)及短轴缩短率(FS)。处死大鼠,苏木素-伊红(HE)染色检测大鼠心肌组织石蜡切片病理学变化;末端脱氧核苷酸转移酶介导的dUTP缺口末端标记(TUNEL)法检测心肌细胞凋亡率;酶联免疫吸附实验(ELISA)测定大鼠血清肿瘤坏死因子α(TNF-α)、白细胞介素-6(IL-6)、肌酸激酶同工酶(CK-MB)以及心肌组织匀浆中超氧化物歧化酶(SOD)、丙二醛(MDA)、过氧化氢酶(CAT)水平;免疫印迹法(Western Blot)测定大鼠心肌组织PI3K/AKT/eNOS通路蛋白表达。结果:与假手术组相比,模型组大鼠LVESD、LVEDD,血清CK-MB、TNF-α、IL-6水平,心肌匀浆MDA、心肌细胞凋亡率升高,EF、FS水平,心肌匀浆SOD、CAT,心肌组织磷酸化PI3K(p-PI3K)/PI3K、磷酸化AKT(p-AKT)/AKT、磷酸化eNOS(p-eNOS)/eNOS降低(P<0.05);与模型组相比,秋水仙碱组大鼠LVESD、LVEDD,血清CK-MB、TNF-α、IL-6水平,心肌匀浆MDA、心肌细胞凋亡率降低,EF、FS水平,心肌匀浆SOD、CAT,心肌组织p-PI3K/PI3K、p-AKT/AKT、p-eNOS/eNOS升高(P<0.05);与秋水仙碱组相比,秋水仙碱+LY294002组、秋水仙碱+MK-2206组、秋水仙碱+L-NAME组大鼠LVESD、LVEDD,血清CK-MB、TNF-α、IL-6水平,心肌匀浆MDA、心肌细胞凋亡率升高,EF、FS水平,心肌匀浆SOD、CAT,心肌组织p-PI3K/PI3K、p-AKT/AKT、p-eNOS/eNOS降低(P<0.05)。结论:秋水仙碱可能通过激活PI3K/AKT/eNOS信号通路对AMI大鼠发挥心功能保护作用。

La_(1-x)Ce_(x)MnO_(3)-Ba/Al_(2)O_(3)催化剂对NO选择性生成NH_(3)的影响

为了实现碳中和目标,降低内燃机碳排放,稀薄燃烧技术成为了当前重要的研究方向.该技术不仅能提高发动机燃油热效率,还能有效降低CO_(2)排放.但是稀薄燃烧往往会伴随着大量氮氧化物的产生,为了解决该问题,采用LNT-SCR耦合的NO_(x)净化技术,此时LNT的作用是将排气中部分NO_(x)转化为NH_(3),为下游的SCR提供还原剂.基于此,制备了LNT催化剂,研究催化剂对NO选择性生成NH_(3)的影响.采用溶胶-凝胶法制备了La_(1-x)Ce_(x)MnO_(3)系列钙钛矿氧化物,并通过分步浸渍法得到了La_(1-x)Ce_(x)MnO_(3)-Ba/Al_(2)O_(3)负载型催化剂.利用XRD、H_(2)-TPR、NO-TPD等表征手段研究了钙钛矿氧化物的晶相结构,以及负载型催化剂的还原特性、NO_(x)吸附-脱附性能等物化性质,并且通过H_(2)选择性催化还原NO实验探究了催化剂掺杂Ce对NO转化成NH_(3)的影响.结果表明,Ce掺杂催化剂具有良好的NH_(3)产物选择性,并且显著提高了NO转化率.温度是NO转化和NH_(3)产物选择性生成的决定性因素,而H_(2)和NO体积比是NO转化和NH_(3)产物选择性生成的关键性因素.其中,La_(0.95)Ce_(0.05)MnO_(3)-Ba/Al_(2)O_(3)在低温下催化活性表现最佳,在350℃、H_(2)和NO体积比为5.0时NH_(3)产物选择性为65%,NO转化率为100%.此外,所制备的La_(1-x)Ce_(x)MnO_(3)都形成了钙钛矿型结构,而且Ce掺杂催化剂的大部分Ce离子可以进入到LaMnO_(3)结构中.在催化剂适量掺杂Ce后,H_(2)消耗总面积增大、还原峰的峰值温度降低,表明掺杂Ce改善了催化剂的还原特性;同时NO吸附和脱附面积增大,表明Ce掺杂改变了催化剂的NO_(x)吸附-脱附性能.

艾司氯胺酮通过糖原合成酶激酶-3β/NOD样受体热蛋白结构域蛋白3通路改善新生鼠缺氧缺血性心肌损伤的研究

目的基于糖原合成酶激酶-3β/NOD样受体热蛋白结构域蛋白3(GSK-3β/NLRP3)通路探讨艾司氯胺酮对新生鼠缺氧缺血性心肌损伤的作用。方法将30只新生大鼠随机分为假手术组、模型组及艾司氯胺酮组,每组10只。假手术组新生鼠行颈部正中切口,暴露双侧颈总动脉;模型组和艾司氯胺酮组新生鼠采用结扎颈总动脉联合低氧环境建立缺血缺氧模型;艾司氯胺酮组新生鼠给予艾司氯胺酮干预(50 mg/kg)。检测各组新生鼠左心室射血分数(LVEF)、左心室短轴缩短率(LVFS)、左心室舒张末期内径(LVEDD)、左心室收缩末期内径(LVESD)、血清肌酸激酶同工酶(CK-MB)、肌钙蛋白I(cTnI)、乳酸脱氢酶(LDH)、肿瘤坏死因子-α(TNF-α)、白细胞介素(IL)-6、IL-1β水平,心肌损伤、心肌细胞凋亡及凋亡蛋白半胱氨酸蛋白酶1/3/9(caspase 1/3/9)水平,心肌组织中性粒细胞浸润情况,以及心肌组织中GSK-3β、NLRP3蛋白水平变化。结果相比于假手术组,模型组新生鼠LVEF、LVFS降低,LVEDD、LVESD增高,且艾司氯胺酮组新生鼠LVEF、LVFS高于模型组,LVEDD、LVESD低于模型组,差异均有统计学意义(P<0.05)。模型组血清CK-MB、cTnI、LDH、TNF-α、IL-6、IL-1β水平,心肌损伤及凋亡,心肌组织切割的caspase 1/3/9蛋白水平、中性粒细胞数量、GSK-3β、NLRP3蛋白水平增加,且艾司氯胺酮组上述指标低于模型组,差异有统计学意义(P<0.05)。结论艾司氯胺酮通过抑制炎症反应改善新生鼠缺氧缺血性心肌损伤,其作用机制与GSK-3β/NLRP3通路有关。

B/KNO_(3)点火药装药的烤燃特性研究

为研究B/KNO_(3)点火药的热安全性,建立多点测温烤燃实验装置,对不同升温速率、不同装药密度条件下的B/KNO_(3)点火药装药进行多点测温烤燃实验,以获得点火药装药发生点火的准确时间与烤燃过程中不同监测点的温度历程。建立B/KNO_(3)点火药装药烤燃实验的数值计算模型并进行了数值模拟,计算中考虑了点火药的自热分解反应与相变吸热。通过与实验结果的对比,标定B/KNO_(3)点火药装药的热物性参数和反应动力学参数。研究结果表明:B/KNO_(3)点火药的指前因子为7.763×10^(13)s^(-1),活化能为2.0787×10^(5)J/mol;在点火药装药的烤燃过程中,随着升温速率的减小,点火延期时间逐渐增加,点火区域逐渐向中心移动,点火环境温度逐渐降低;在装药密度变化不太大的情况下,点火药的点火特征差别不大。

牛蒡子苷元调控Notch/Hes-1信号通路对口腔鳞状细胞癌HSC-3细胞增殖、凋亡和侵袭的影响

目的:探究牛蒡子苷元(ARC)通过调控Notch/Hes-1信号通路对口腔鳞状细胞癌(OSCC)HSC-3细胞增殖、凋亡和侵袭的影响及其机制。方法:使用不同质量浓度的ARC处理人HSC-3细胞,CCK-8法检测ARC对细胞增殖活力的影响,以选择适宜的药物浓度。将HSC-3细胞分为对照组、ARC-L组(10 mg/L ARC)、ARC-M组(20 mg/L ARC)、ARC-H组(40 mg/L ARC)和ARC-H+Jagged1/FC组(40 mg/L ARC+1.2μg/mL Jagged1/FC)。采用EdU法检测细胞增殖能力,划痕愈合实验、Transwell实验和流式细胞术分别检测细胞的迁移、侵袭能力及细胞周期和细胞凋亡率,WB法检测增殖(c-Myc、cyclin D1)、凋亡(BAX、Bcl-2、survivin)、EMT(E-cadherin、vimentin、Snail)及Notch/Hes-1通路(Notch 1、Hes-1、NICD)相关蛋白的表达水平。结果:与0 mg/L相比,10~80 mg/L的ARC均能显著降低HSC-3细胞增殖活力(均P<0.05)。与对照组相比,ARC-L组、ARC-M组和ARC-H组HSC-3细胞EdU阳性率、划痕愈合率、侵袭细胞数、S期和G2/M期细胞占比及c-Myc、cyclin D1、Bcl-2、survivin、vimentin、Snail、Notch 1、Hes-1和NICD蛋白表达均显著降低(均P<0.05),细胞凋亡率、G0/G1期细胞占比及BAX、E-cadherin的蛋白表达均显著升高(均P<0.05),且呈浓度梯度依赖性。同时使用Notch激动剂Jagged1/FC,则可部分逆转ARC对HSC-3细胞增殖、迁移、侵袭、凋亡及相关蛋白表达的作用(均P<0.05)。结论:ARC可能通过抑制Notch/Hes-1信号通路抑制OSCC细胞HSC-3增殖和侵袭并促进细胞凋亡。

Synthesis and upconversion luminescence of Lu_2O_3:Yb^(3+),Tm^(3+) nanocrystals

Lutetium oxide nanocrystals codoped with Tm3＋ and Yb3＋ were synthesized by the reverse-like co-precipitation method, using ammonium hydrogen carbonate as precipitant. Effects of the Tm3＋, Yb3＋ molar fractions and calcination temperature on the structural and upconversion luminescent properties of the Lu2O3 nanocrystals were investigated. The XRD results show that all the prepared nanocrystals can be readily indexed to pure cubic phase of Lu2O3 and indicate good crystallinity. The experimental results show that concentration quenching occurs when the mole fraction of Tm3＋ is above 0.2%. The optimal Tm3＋ and Yb3＋ doped molar fractions are 0.2% and 2%, respectively. The strong blue （490 nm） and the weak red （653 nm） emissions from the prepared nanocrystals were observed under 980 nm laser excitation, and attributed to the 1G4→3H6 and IG4→3F4 transitions of Tm3＋, respectively. Power-dependent study reveals that the 1G4 levels of Tm3＋ can be populated by three-step energy transfer process. The upconversion emission intensities of 490 nm and 653 nm increase gradually with the increase of calcination temperature. The enhancement of the upconversion luminescence is suggested to be the consequence of reducing number of OH- groups and the enlarged nanoerystal size.