Complement activation targeted inhibitor C2-FH ameliorates acetaminophen-induced liver injury in mice

BACKGROUND Complement activation is recognized as an important factor in the progression of liver damage caused by acetaminophen(APAP).However,the role of the complement inhibitor C2-FH in APAP-induced liver injury remains unclear.AIM To explore C2-FH in protecting against APAP-induced liver injury by inhibiting complement activation.METHODS A model of APAP-induced liver injury was used to study the protective effect of C2-FH on liver injury.C2-FH was administered through intraperitoneal injection 30 minutes after APAP treatment.We detected the effects of C2-FH on liver function,inflammatory response and complement activation.Additionally,RNA-sequencing(RNA-Seq)analysis was conducted to understand the mechanism through which C2-FH provides protection against APAP-induced liver injury.RESULTS C2-FH inhibited the increase in serum alanine aminotransferase activity,aspartate aminotransferase activity and lactate dehydrogenase,and reduced liver tissue necrosis caused by APAP.Moreover,it attenuated the inflammatory response and inhibited complement activation in APAP-induced liver injury.RNA-Seq analysis provided additional explanations for the protective role of C2-FH against APAP-induced liver injury.CONCLUSION C2-FH attenuates APAP-induced liver injury by inhibiting complement activation.

Activated Protein C Resistance in Patients with Pre-Eclampsia in Lagos, Nigeria

Background: Preeclampsia is reported to complicate 2% - 8% of pregnancies globally and is an important cause of maternal and perinatal morbidity and mortality. The aetiology and pathogenesis are still poorly understood and substantial improvement has not been made in the prediction, prevention and treatment of the disease. Objective: To compare the frequency of activated protein C resistance (APC-R) in patients with pre-eclampsia to that of normotensive pregnant women and to determine the correlation between activated protein ratio (APC-ratio) and the severity of pre-eclampsia. Methodology: A cross-sectional study was carried out in 100 pre-eclamptic patients and 100 normotensive pregnant controls. The APC-ratio was determined using the modified activated partial thromboplastin time. Study participants with APC-ratio of less than 2.0 were defined as having APC-R. Data was analyzed using SPSS version 22.0. Results: Mean APC-ratio was significantly lower in pre-eclamptics (2.89 ± 1.70) compared to normotensive pregnant women (3.57 ± 1.06) (p = 0.0008) and the levels were also higher in mild (2.95 ± 1.15) compared to severe pre-eclamptics (2.62 ± 1.14). The frequency of APC-R was 26% among women with pre-eclampsia compared to 4% among normotensive controls (p = 0.000). Among 100 pre-eclamptic women 7 (21.2%) out of 33 with mild pre–eclampsia had APC-R, while 19 (28.4%) out of 67 with severe pre-eclampsia had APC-R. APC-ratio had a significant negative correlation with mean arterial blood pressure (r = −0.324;p = 0.000) and proteinuria (r = −0.379;p = 0.000) among study participants. Conclusion: The frequency of activated protein c resistance is significantly higher in pre-eclamptics compared to normotensive pregnant women and this is more pronounced in those with severe pre-eclampsia compared with those with mild disease. APC-R may therefore be used as a marker of severity in the disease.

Bioactive chemical constituents from the marine-derived fungus Cladosporium sp.DLT-5

A new isochromanone,cladosporinisochromanone(1),accompanied by 15 known compounds(2–16)were obtained from secondary metabolites produced by marine-derived fungus Cladosporium sp.DLT-5.NMR and HRESIMS spectra elucidation determined the planar structure of 1.Subsequent electronic circular dichroism(ECD)experiment assigned the absolute configuration of 1.Compounds 1,2,4–6,and 10 displayed different degrees of neuroprotective activities on human neuroblastoma cells SH-SY5Y.Five compounds(1,3–5,and 13)emerged resistance to protein tyrosine phosphatase 1B(PTP1B),further kinetic analysis and molecular docking study indicated that the most potent compound 13(IC50value of 10.74±0.61μmol/L)was found as a noncompetitive inhibitor for PTP1B.Surface plasmon resonance(SPR)and molecular docking studies also demonstrated the interaction between compound 12 and Niemann-Pick C1 Like 1(NPC1L1),which has been identified as significant therapeutic target for hypercholesteremia.In addition,compounds 3,6,and 14 showed attractive inhibitory activity against the phytopathogenic fungi:Colletotrichum capsici.Therefore,library of Cladosporium metabolites is enriched and new active uses of known compounds are explored.

Diabetes and high-glucose could upregulate the expression of receptor for activated C kinase 1 in retina

BACKGROUND Diabetic retinopathy(DR)is a major ocular complication of diabetes mellitus,leading to visual impairment.Retinal pigment epithelium(RPE)injury is a key component of the outer blood retinal barrier,and its damage is an important indicator of DR.Receptor for activated C kinase 1(RACK1)activates protein kinase C-ε(PKC-ε)to promote the generation of reactive oxygen species(ROS)in RPE cells,leading to apoptosis.Therefore,we hypothesize that the activation of RACK1 under hypoxic/high-glucose conditions may promote RPE cell apoptosis by modulating PKC-ε/ROS,thereby disrupting the barrier effect of the outer blood retinal barrier and contributing to the progression of DR.AIM To investigate the role and associated underlying mechanisms of RACK1 in the development of early DR.METHODS In this study,Sprague-Dawley rats and adult RPE cell line-19(ARPE-19)cells were used as in vivo and in vitro models,respectively,to explore the role of RACK1 in mediating PKC-εin early DR.Furthermore,the impact of RACK1 on apoptosis and barrier function of RPE cells was also investigated in the former model.RESULTS Streptozotocin-induced diabetic rats showed increased apoptosis and upregulated expression of RACK1 and PKC-εproteins in RPE cells following a prolonged modeling.Similarly,ARPE-19 cells exposed to high glucose and hypoxia displayed elevated mRNA and protein levels of RACK1 and PKC-ε,accompanied by an increases in ROS production,apoptosis rate,and monolayer permeability.However,silencing RACK1 significantly downregulated the expression of PKC-εand ROS,reduced cell apoptosis and permeability,and protected barrier function.CONCLUSION RACK1 plays a significant role in the development of early DR and might serve as a potential therapeutic target for DR by regulating RPE apoptosis and barrier function.

Diabetic Retinopathy: Diagnostic Challenges and Impact of Physical Activity

Introduction: Diabetes represents a major public health challenge, affecting over 463 million people according to the World Health Organization (WHO). Among its complications, diabetic retinopathy stands out as the leading cause of blindness in industrialized countries. Physical activity is now recognized as a cornerstone of diabetes management, and its impact on diabetic retinopathy is of growing interest. Observation: Mr. A.E, a 54-year-old man, presents with progressive deterioration of his vision. Family history of diabetes and hypertension is noted. He engages in one hour of physical activity daily, including treadmill running and indoor cycling. Despite recent optical correction, his visual acuity remains at 3/10 unimproved. Ocular imaging, notably fluorescein retinal angiography and optical coherence tomography, reveals proliferative diabetic retinopathy with bilateral macular edema. Blood tests, performed after physical activity, show normal values of blood glucose and HbA1c, delaying the initiation of treatment and promoting the progression of retinopathy. Despite appropriate management, no significant improvement in visual function is observed during follow-up. Conclusion: The management of diabetic retinopathy requires an approach integrating physical activity. A better understanding of the interaction between physical activity and diabetic retinopathy is needed to optimize prevention and treatment strategies.

KVPO_(4)F/carbon nanocomposite with highly accessible active sites and robust chemical bonds for advanced potassium-ion batteries

KVPO_(4)F(KVPF)has been extensively investigated as the potential cathode material for potassium-ion batteries(PIBs)owing to its high theoretical capacity,superior operating voltage,and three-dimensional Kt conduction pathway.Nevertheless,the electrochemical behavior of KVPF is limited by the inherent poor electronic conductivity of the phosphate framework and unstable electrode/electrolyte interface.To address the above issues,this work proposes an infiltration-calcination method to confine the in-situ grown KVPF into the mesoporous carbon CMK-3(denoted KVPF@CMK-3).The assembled KVPF@CMK-3 nanocomposite features three-dimensional interconnected carbon channels,which not only offer abundant active sites and significantly accelerate K t/electron transport,but also prevent the growth of KVPF nanoparticle agglomerates,hence stabilizing the structure of the material.Additionally,V–F–C bonds are created at the interface of KVPF and CMK-3,which reduce the loss of F and stabilize the electrode interface.Thus,when tested as a cathode material for PIBs,the KVPF@CMK-3 nanocomposite delivers superior reversible capacitiy(103.2 mAh g^(-1) at 0.2 C),outstanding rate performance(90.1 mAh g^(-1) at 20 C),and steady cycling performance(92.2 mAh g^(-1) at 10 C and with the retention of 88.2%after 500 cycles).Moreover,its potassium storage mechanism is further examined by ex-situ XRD and ex-situ XPS techniques.The above synthetic strategy demonstrates the potential of KVPF@CMK-3 to be applied as the cathode for PIBs.

老年重症肺炎患者血清4-HNE、APC、sCD163预测预后不良的价值

目的探讨老年重症肺炎(SP)患者血清4-羟基壬烯醛(4-HNE)、活化蛋白C(APC)、可溶性血红蛋白清道夫受体163(sCD163)对预后不良的预测价值。方法选取2020年8月至2022年8月新乡医学院第一附属医院收治的200例老年SP患者纳入SP组,另选取同期、同年龄段200例老年普通肺炎患者纳入普通肺炎组。比较两组患者和SP组不同预后患者的血清4-HNE、APC、sCD163水平,并采用Pearson法分析SP组患者血清4-HNE、APC、sCD163水平与肺部感染评分(CPIS评分)的相关性,采用Logistic回归分析老年SP患者死亡的影响因素,采用受试者工作特性曲线(ROC)分析各指标对预后情况的预测效能。结果SP组患者的血清4-HNE、sCD163水平分别为(21.27±4.02)mg/L、(154.27±56.34)pg/mL,明显高于普通肺炎组的(15.63±3.49)mg/L、(112.17±37.59)pg/mL,APC水平为(25.47±5.06)pmol/L,明显低于普通肺炎组的(30.12±6.14)pmol/L,差异均具有统计学意义(P<0.05);经Pearson法分析结果显示,入院时SP患者的血清4-HNE、sCD163水平与CPIS评分呈正相关(r=0.754、0.723,P<0.05),APC水平与之呈负相关(r=-0.695,P<0.05);入院3 d、7 d后,死亡组患者的血清4-HNE分别为(23.89±6.12)mg/L、(26.01±8.27)mg/L,明显高于生存组的(19.03±4.11)mg/L、(17.25±3.56)mg/L,sCD163水平分别为(182.34±60.33)pg/mL、(219.46±70.41)pg/mL,明显高于生存组的(137.83±30.24)pg/mL、(120.74±25.17)pg/mL,APC水平分别为(23.04±4.89)pmol/L、(20.73±4.25)pmol/L,明显低于生存组的(27.42±4.09)pmol/L、(29.76±4.14)pmol/L,差异均具有统计学意义(P<0.05);Logistic回归分析结果显示,入院3 d、7 d后,血清4-HNE(>20.32 mg/L、>19.57 mg/L)、sCD163(>149.63 pg/mL、>146.90 pg/mL)是老年SP患者治疗28 d后死亡的危险因素,APC(>26.26 pmol/L、>27.37 pmol/L)是其保护因素(P<0.05);ROC分析结果显示,入院3 d后血清各指标水平联合预测死亡的曲线下面积(AUC)为0.910(95%CI:0.861~0.946),最佳预测敏感度、特异度分别为81.13%、86.39%,入院7 d后联合预测死亡的AUC为0.922(95%CI:0.876~0.955),最佳敏感度、特异度分别为90.57%、84.35%。结论血清4-HNE、APC、sCD163水平与老年SP发生、发展相关,各指标水平与CPIS评分均具有一定相关性,联合检测对老年SP患者预后情况具有一定预测价值,可作为临床评估肺部感染程度及预后的辅助指标。

过渡金属参与切断苄位C—H键构建C—C键

过渡金属参与切断苄位C—H键构建C—C键是有机合成化学的研究热点之一。该领域具有广阔的应用前景和发展潜力,可应用于中间体的合成、医药和农药等领域。综述了过渡金属参与切断苄位C—H键构建C—C键的研究进展。

新型4-苯氧基吡啶类c-Met激酶抑制剂的合成和抗肿瘤活性研究

为了发现新型高活性c-Met激酶抑制剂,以2-氨基-4-氯吡啶为原料,经醚化、酰化、烷基化、还原和酰化等多步反应,制备了6种未见文献报道的4-苯氧基吡啶类化合物,化合物结构经红外光谱、核磁共振氢谱和质谱确证.生物活性测试结果显示,6种化合物对MKN-45、A549、H460和HT-294种肿瘤细胞株具有很好的抗增殖活性,两种化合物对c-Met激酶具有很好的抑制活性.其中化合物7b抑制MKN-45、A549、H460和HT-29细胞株的IC 50值分别为1.89、5.14、0.74、0.60μmol/L.该化合物在1000 nmol/L和200 nmol/L的浓度下对c-Met激酶的抑制率分别为96.2%和82.8%,显示出了优异的抗肿瘤活性.

仙茅苷介导PERK/ATF4/CHOP通路减轻UC大鼠肠黏膜病理改变的作用与机制探讨

目的 观察仙茅苷治疗溃疡性结肠炎(UC)大鼠的作用,并探讨其对蛋白激酶R样内质网激酶(PERK)/活化转录因子4(ATF4)/增强子结合蛋白同源蛋白(CHOP)通路的调控作用。方法 取61只SD大鼠以三硝基苯磺酸(TNBS)法诱导建立UC模型,按随机数字表分为仙茅苷低、中、高剂量组(25、50、100 mg/kg仙茅苷溶于生理盐水),美沙拉嗪组(500 mg/kg美沙拉嗪溶于生理盐水)、PERK抑制剂组(GSK2606414 1.0 mg/kg溶于生理盐水)、模型组(生理盐水),另取10只健康SD大鼠记为正常组(生理盐水),生理盐水体积均为1 ml/100 g大鼠体质量,均灌胃每天1次,连续10 d。给药结束后次日,评价疾病活动指数(DAI);气相色谱法(GC)测定两组大鼠5 h尿液中乳果糖(L)与甘露醇(M)排泄率(L/M)比值;双抗体夹心法测定血清糖皮质激素浓度,酶联免疫法测定血清白介素-6(IL-6)、干扰素(IFN-γ)、白介素-8(IL-8)和肿瘤坏死因子-α(TNF-α)水平;苏木素-伊红(HE)染色观察肠黏膜病理改变;实时-逆转录荧光定量聚合酶链反应(RT-qPCR)检测肠黏膜组织PERK、ATF4、CHOP、Bcl2关联X蛋白(Bax)、B淋巴细胞瘤-2(Bcl-2)信使核糖核酸(mRNA)表达;免疫印迹法(WB)检测肠黏膜组织PERK、ATF4、CHOP、Bax、Bcl-2蛋白表达及磷酸化PERK(p-PERK)水平。结果 肉眼和HE染色观察证实建模成功;与正常组比较,模型组L/M,DAI和肠黏膜病理评分,血清糖皮质激素浓度和血清IL-6、IFN-γ、IL-8和TNF-α水平,PERK、ATF4、CHOP、Bax mRNA与蛋白表达,p-PERK水平均升高(P<0.05),Bcl-2 mRNA及蛋白表达均下降(P<0.05);与模型组比较,仙茅苷3个剂量组、美沙拉嗪组、PERK抑制剂组L/M,DAI和肠黏膜病理评分,血清糖皮质激素浓度和血清IL-6、IFN-γIL-8和TNF-α水平,PERK、ATF4、CHOP、Bax mRNA与蛋白表达,p-PERK水平均下降(P<0.05),Bcl-2 mRNA及蛋白表达均升高(P<0.05);糖皮质激素浓度、PERK、ATF4、CHOP、Bax、Bcl-2 mRNA及蛋白表达,p-PERK水平仙茅苷低剂量组与美沙拉嗪组,仙茅苷中剂量组与美沙拉嗪组、PERK抑制剂组其它指标差异均无统计学意义(P>0.05),其余每2组比较差异均有统计学意义(P<0.05);模型组结肠黏膜病理严重改变,仙茅苷低剂量组有所减轻,仙茅苷中剂量组、美沙拉嗪组和PERK抑制剂组均明显减轻,仙茅苷高剂量组显著减轻。结论 仙茅苷可改善UC大鼠肠黏膜屏障功能、控制疾病活动度、减轻病理改变,推测与抑制PERK/ATF4/CHOP通路有关。

克罗恩病患者血清CCL11及I-FABP的表达水平与疾病活动指数的相关性研究

目的探究克罗恩病(CD)患者血清嗜酸性粒细胞趋化因子(CCL11)及肠脂肪酸结合蛋白(I-FABP)水平表达与疾病活动指数的相关性。方法选取2021年2月至2023年2月于上海市杨浦区中心医院就诊的98例CD患者进行研究(CD组),根据疾病活动指数(CDAI)评分将患者分为缓解期21例、轻度活动期31例、中度活动期28例和重度活动期18例,另选取同期健康者100例作为对照组,采用酶联免疫吸附法检测血清CCL11、I-FABP水平,采用Spearman法分析血清CCL11、I-FABP水平与CDAI评分的相关性,采用受试者工作特征曲线(ROC)分析血清CCL11、I-FABP水平对CD患者疾病活动度的评估价值。结果CD组患者的血清CCL11、I-FABP水平分别为(51.33±7.14)pg/mL、(64.85±11.56)ng/mL,明显高于对照组的(28.56±6.61)pg/mL、(31.38±10.35)ng/mL,差异均有统计学意义(P<0.05);缓解期、轻度、中度、重度活动期CD患者血清CCL11水平分别为(31.47±7.02)pg/mL、(45.52±7.08)pg/mL、(57.83±7.12)pg/mL、(74.41±7.43)pg/mL,I-FABP水平分别为(48.13±10.79)ng/mL、(59.97±11.32)ng/mL、(70.76±11.75)ng/mL、(83.58±12.58)ng/mL,缓解期、轻度活动期、中度活动期、重度活动期CD患者血清CCL11、I-FABP水平依次升高,差异均有统计学意义(P<0.05)。Spearman相关性分析结果显示,血清CCL11、I-FABP水平均与CDAI评分呈正相关(r=0.834、0.620,P<0.01);ROC分析结果显示,血清CCL11、I-FABP水平评估CD患者疾病活动度的AUC分别为0.882、0.889,敏感性为81.82%、80.52%,特异性为85.71%、85.71%。两者联合评估疾病活动度的AUC为0.938,显著高于单项检测(P<0.05),联合检测的敏感性和特异性为93.51%、85.71%。结论CD患者血清CCL11、I-FABP水平升高,与疾病活动指数密切相关,且两者联合评估CD患者疾病活动度具有较高效能。

C型外包花纹钢-混凝土界面粘结强度推出试验研究

为探究带拉条式C型外包花纹钢-混凝土的粘结强度及粘结滑移性能,考虑钢板的花纹高度、混凝土强度、拉条间距、截面宽度和翼缘截面形式对试件粘结强度的影响,设计制作了12个带拉条的C型外包花纹钢-混凝土推出试件。分析各试件的破坏过程、荷载-滑移曲线、钢板应变沿纵向分布规律及特征粘结强度;综合考虑各影响因素,统计回归得出特征粘结强度的计算公式。研究结果表明:增大花纹高度是改善粘结性能最有效的途径;特征粘结强度随着混凝土强度的增大呈增大趋势,随着截面宽高比和拉条间距的增大呈减小趋势;在同等条件下,翼缘内翻试件的粘结性能优于翼缘外翻试件;特征粘结强度的回归公式能够较好地拟合试验结果。

槐提取物和维生素C组合物对紫外照射诱导的HaCaT细胞光损伤的保护作用

本研究旨在探讨槐提取物和维生素C(Vitamin C,V_(C))对紫外线照射引起的HaCaT细胞光损伤的保护作用。通过体外培养HaCaT细胞并将其分为不同组别:对照组(未接受紫外辐照,无槐提取物、V_(C)或二者组合物处理)、紫外线辐射组、125μg/mL槐提取物(接受紫外辐照及槐提取物处理)、125μg/mL维生素C(接受紫外辐照及维生素C处理)以及125μg/mL组合物组(接受紫外辐照及组合物处理,槐提取物和V_(C)质量比为1:1)。采用荧光染色和酶标仪检测技术来评估槐提取物、V_(C)及二者组合物对紫外照射引起的HaCaT细胞产生的活性氧物质(ROS)和线粒体ROS的抑制率。利用免疫荧光染色和酶联免疫吸附法检测槐提取物、V_(C)和组合物对紫外照射引起的HaCaT细胞中环丁烷嘧啶二聚体(Cyclobutane pyrimidine dimers,CPDs)和细胞炎症因子IL-6的表达水平。结果显示,槐提取物、V_(C)和组合物对UVA处理后HaCaT细胞生成的总ROS抑制率分别为38.23%±9.23%、27.20%±6.87%及64.13%±4.08%,与单独使用槐提取物或V_(C)处理相比,组合物显著提高总ROS抑制率(P<0.01)。槐提取物、V_(C)和组合物对线粒体ROS(Mitochondrial DNA,mtROS)的抑制率分别为50.29%±4.92%、38.81%±8.66%及84.74%±3.68%,与单独使用槐提取物或V_(C)处理相比,组合物极显著提高mtROS抑制率(P<0.01)。此外,在UVB照射后,槐提取物、V_(C)及组合物可极显著减少CPDs的生成(P<0.01),这种效应在组合物组效果更为显著(与槐提取物组比较P<0.05;与V_(C)组比较P<0.01)。同时,槐提取物和组合物显著降低UVA照射后炎症因子IL-6的分泌(P<0.01;P<0.05),表明槐提取物及组合物具有抗炎作用。本研究结果表明槐提取物和维生素C组合物能减轻紫外线引起的氧化应激损伤和炎症反应,为未来体内研究和开发具有健康益处的槐提取物和V_(C)组合物提供实验支持。

氯自由基介导的光催化芳基醚C(sp^(3))−H氧化生成酯

饱和的碳氢键氧化是合成化学和化学工业中一类重要的化学反应.然而,饱和C(sp^(3))−H键离解能(BDEs)较高、极性较弱,导致了底物难以活化和催化转化效率较低等问题.在过去的几十年,C(sp^(3))−H键的定向活化转化取得了重要的进展.其中,关于C(sp^(3))−H键催化氧化的研究主要涉及一些键能低的、预活化的C−H键,包括苄基型、亚甲基型、脂肪族X−CH_(2)(X=O,N)和甲苯等,含有未活化C(sp^(3))−H键的复杂化合物的选择性氧化仍具有挑战性.例如,芳基醚C(sp^(3))−H键功能化通常采用计量的过氧化物氧化剂,或者通过单电子氧化和碱促进的去质子化进一步构建C−C/C−N键,产物选择性较低,也带来了一些不利的环境影响.因此,有必要开发高效、温和的芳基醚C(sp^(3))−H键选择氧化方法,并将其应用于有机合成和药物开发.近年来,光催化C(sp^(3))−H键氧化因其操作简便、氧化还原中性等优点,已发展成为一种有用且多样的催化研究工具.本文发展了一种利用氧气作为氧化剂,在可见光驱动下选择性地将芳基醚C(sp^(3))−H键氧化成为甲酸苯酯类产物的新方法.使用Mes-10-phenyl-Acr^(+)−BF_(4)^(-)光催化剂,高效活化多种氯源(如盐酸、无机氯盐和有机氯化物)得到氯自由基,由于其具有较高的氧化能力(+2.03 V vs.SCE)和对氢原子的亲和力,能够通过氢原子转移过程活化芳基醚C(sp^(3))−键,攫取氢自由基得到相应的烷基碳自由基(•CH_(2)OPh)中间体,进一步被分子氧选择氧化得到酯类目标产物.研究结果表明,多种链状芳基醚和不同取代(如给电子基和吸电子基)芳基醚均可发生氧化反应,高收率地合成了一系列官能团丰富的甲酸苯酯类化合物.本文方法具有反应条件温和、操作简单、官能团耐受性好以及可规模化放大等优点,并且少量的水对反应没有明显影响.机理实验研究结果表明,芳基醚C(sp^(3))−H键的断裂是反应过程的决速步骤.紫外可见吸收光谱结果表明,氯离子与催化剂之间的相互作用强于底物,并且自由基捕获实验证实反应体系中存在氯自由基和烷基碳自由基物种,表明反应经历自由基路径.此外,电子顺磁共振测试结果表明,反应过程中存在单线态氧物种,可能是激发态的光催化剂直接与氧气发生能量转移得到;同位素实验(18O)揭示了甲酸苯酯类化合物氧的来源.综上,本文实现了温和条件下光催化芳基醚C(sp^(3))−H键选择氧化反应,高收率合成了一系列甲酸苯酯类化合物.该方法避免了化学计量的过氧化物和碱等添加剂的使用以及底物的过度氧化,阐明了催化反应机制,为其他醚类化合物的C(sp^(3))−H键氧化功能化提供了新思路,为后续化学合成和药物开发提供了参考和启示.

改良everStick C&B纤维树脂粘接桥在老年切牙缺失修复中的疗效观察

目的:评价改良everStick C&B纤维树脂粘接桥在老年切牙缺失修复中的临床疗效。方法:纳入年龄65岁以上切牙缺失患者32例。其中上颌切牙缺失13例、下颌切牙缺失19例;缺牙1颗13例、缺牙2颗11例、缺牙3颗5例、缺牙4颗3例;基牙松动24例、基牙无松动8例。对所有患者均采取改良everStick C&B纤维树脂粘接桥修复治疗。分别于修复完成后6、 12、 18个月复查,复查内容包括修复体脱粘接、折断、颜色变化、缺损以及基牙松动、牙周组织炎症等6项指标。修复完成后6个月对患者进行满意度调查,调查内容包括治疗过程是否舒适、美观效果是否满意、修复后发音、咀嚼是否舒适等3项指标。结果:32位老年患者修复完成后6个月,6项指标均为A级。12个月,出现1例修复体缺损B级,2例基牙牙周组织炎症B级,其余均为A级。18个月,出现1例修复体缺损B级,3例基牙牙周组织炎症B级,其余均为A级。2例修复体缺损B级经过树脂充填后均达到A级。5例基牙牙周组织炎症B级经过牙周洁治后5~7 d均达到A级。患者满意度调查3项指标均为A级。结论:改良everStick C&B纤维树脂粘接桥在老年切牙缺失修复中临床疗效良好。

可见光催化CO_(2)参与的芳基烯烃碳碳双键断键羧基化反应

烯烃广泛存在于自然界中,在医药、农药和材料等领域具有重要应用.烯烃的C=C键断裂和转化是许多工业过程的基础,可以实现烃类资源的重组与利用.目前,C=C键参与的氧化裂解和烯烃复分解反应已有广泛的研究.相比而言,C=C键参与的还原裂解虽然是烯烃与一系列亲电试剂反应合成功能分子的重要途径,但受限于烯烃自身结构和反应特点,该过程存在较大的挑战,目前研究很少.CO_(2)具有储量丰富、廉价易得、无毒且可循环再生等优点,是合成多种大宗化学品及精细化学品的理想碳一资源.然而,CO_(2)由于热力学稳定性及动力学惰性,在温和条件下难以高效、高选择性转化.因此,利用CO_(2)参与烯烃C=C键还原裂解,选择性构建高值化合物,是一个重要且具有挑战性的研究方向.近年来,可见光催化由于具有反应条件温和、官能团兼容性高等优点,为有机合成等领域提供了新的发展机遇.本文利用二环己基甲基胺作为电子给体,成功实现了可见光催化CO_(2)参与的芳基烯烃C=C键断键羧基化反应.该反应成功的关键在于,二环己基甲基胺既能高效还原淬灭激发态光敏剂并参与烯烃的胺基烷基-羧基化反应,又不明显抑制胺基烷基化中间体对激发态光敏剂的还原淬灭.研究结果表明,多种不同取代(如给电子基和吸电子基)的芳基烯烃均可与CO_(2)发生羧基化反应,高效高选择性地构建了一系列官能团丰富的芳基乙酸类化合物(如萘普生等药物分子).该方法具有反应条件温和(1 atm,室温)、官能团耐受性好以及可用于合成药物衍生物等特点.此外,本文通过氘代实验等机理研究和密度泛函理论计算证明,胺甲基羧化中间体、苄基自由基和苄基碳负离子都是该反应的关键中间体,并提出了可能的反应机理:首先,二环己基甲基胺还原淬灭激发态光敏剂,产生α-胺基碳自由基,与芳基烯烃发生自由基加成反应,得到苄基自由基,进而被还原态光敏剂还原为碳负离子,对CO_(2)亲核进攻得到烯烃的胺基烷基-羧基化中间体;作为电子给体,该中间体可以淬灭另一分子的激发态光敏剂,并通过分子内去质子化过程,产生α-胺基碳自由基物种,进而经历自由基型β-C断裂,生成热力学更稳定的羧基化苄基自由基,从而实现了烯烃C=C键的还原裂解;最后,新产生的苄基自由基被进一步还原为碳负离子,经历质子化过程后得到目标产物.综上,本文以还原裂解的方式丰富了C=C键断键官能团化反应领域,在温和条件下实现了CO_(2)的高效高选择性转化,合成了高附加值的芳基乙酸类化合物,阐明了反应机制,为烯烃和CO_(2)的同时高值化利用提供了新思路,为后续相关反应的开发和应用提供参考.

分子筛限域单位点钴体系催化芳香族化合物C-H键自调节高效氧化

通过芳香族化合物的碳-氢键活化与选择氧化,可以将廉价芳香烃类原料转化为高附加值含氧产品,因此,该反应在基础研究和工业生产中均受到广泛关注.传统的苯乙酮生产工艺存在毒性底物使用、催化剂回收困难、反应条件苛刻以及产物收率低等问题.通过大量的研究探索,科研人员进一步改进其生产工艺,利用环烷酸钴作为均相催化剂,实现了无溶剂条件下分子氧直接选择氧化乙苯生成苯乙酮.相比均相催化,多相催化在催化剂回收和产物分离方面具有优势,更适合工业化生产.因此,开发用于乙苯选择氧化制苯乙酮的高效稳定多相催化体系非常重要,但具有较大挑战.本文采用原位配体保护的水热合成法将钴配合物(钴-二乙烯三胺)封装在Y型分子筛中,并经进一步焙烧去除配体成功制得Co@Y分子筛催化剂.在无溶剂、无添加剂的条件下,单位点Co作为Co@Y分子筛催化剂的活性位点可催化乙苯选择氧化生成苯乙酮.X射线粉末衍射、透射电镜、紫外可见光吸收光谱和固体核磁共振谱等结果表明,该单位点Co(Co^(2+))通过与骨架氧原子作用稳定限域在Y型分子筛中.为明确Co@Y分子筛催化剂中单位点Co在乙苯氧化反应中所起的重要作用,本文还对比了不同后合成方法所制备的Y分子筛(Co/Y,Co-Y)催化剂及工业环烷酸钴催化剂的催化性能.结果表明,在相同反应条件下,Co@Y分子筛催化剂表现出最高的催化性能,也说明在乙苯氧化反应过程中Co@Y分子筛催化剂的单位点Co有别于上述其他催化剂的活性位点.此外,在Co@Y催化剂热过滤实验中未检测出Co物种浸出,表明Co@Y分子筛催化乙苯氧化反应为多相催化过程,并且在多次循环测试后,Co@Y催化剂结构和反应活性均未发生明显变化.这两项实验均表明Co@Y催化剂具有高稳定性.值得注意的是,在乙苯氧化反应过程中观察到自加速现象,为此进行了对比实验(添加苯甲醛或1-苯乙醇的对比实验)和反应动力学分析.结果表明,痕量苯甲醛或1-苯乙醇的加入会显著改变Co@Y催化剂在乙苯氧化反应中的催化行为,痕量苯甲醛的加入可将反应表观活化能从69.7降至53.7 kJ/mol.本文也通过第一性原理密度泛函理论(DFT)计算系统研究了Co@Y分子筛催化剂单位点Co处乙苯选择氧化反应机理及反应过程中自加速现象产生的原因.DFT计算结果结合上述对比实验和反应动力学分析结果表明,加入痕量苯甲醛或者1-苯乙醇后部分乙苯会直接氧化生成苯乙酮,而非通过乙苯→1-苯乙醇→苯乙酮的途径生成苯乙酮.DFT计算结果也阐明反应过程中自加速现象的产生源于单位点Co处活性氧物种(O^(*))的生成.该活性氧物种在乙苯、苯甲醛和1-苯乙醇的氧化途径中均能自发生成,并且该物种类似“引发剂”促使后续更多链式反应的发生,在乙苯氧化反应过程中具有非常重要的作用.综上所述,本文为理解芳香族化合物碳-氢键选择氧化实验现象与催化作用机制提供了有益见解,可为理性设计开发更高效的催化剂提供新思路.

Density Functional Studies of the Reaction of Ytterbium Monocation with Fluoromethane:C-F Bond Activation and Electron-Transfer Reactivity

The potential energy surface and reaction mechanism corresponding to the reaction of ytterbium monocation with fluoromethane, which represents a prototype of the activation of C-F bond in fluorohydrocarbons by bare lanthanide cations, have been investigated for the first time by using density functional theory. A direct fluorine abstraction mechanism was revealed, and the related thermochemistry data were determined. The electron-transfer reactivity of the reaction was analyzed using the two-state model, and a strongly avoided crossing behavior on the transition state region was shown. The present results support the reaction mechanism inferred from early experimental data and the related thermochemistry data can provide a guide for further experimental researches.

在过渡金属催化剂上的C―C键断裂以实现生物质的升级

将当前能源生产和消费结构从过度依赖化石能源转变为高效利用可再生能源,是解决能源危机、实现碳中和的有效途径。生物质是最有前途的可再生能源之一,可以取代化石燃料以获得有价值的有机化合物。近年来,大力利用生物质能已成为一种必然趋势。用于生物质转化的传统热化学催化方法通常需要高温、高压等恶劣条件,甚至还需要外部氢或氧源。相比之下,在相对温和的条件下进行的生物质有机分子电催化转化为生产高价值化学品提供了一种绿色高效的策略。特别是,通过C―C键裂解将生物质衍生的分子转化为高价值的短链化学品至关重要。近年来,大量的研究证明过渡金属(TM)电催化剂由于其丰富的三维电子结构和独特的eg轨道增强了过渡金属-氧之间的共价键合,从而在有机物的C―C键断裂中起着至关重要的作用。此外,TM电催化剂的配位环境或电子结构会影响产物的选择性。毫无疑问,明确的反应活性位点和途径有助于深入理解催化剂结构与反应活性之间的构效关系。然而,TM电催化剂介导的生物质衍生有机分子的C―C键裂解反应用于生物质升级的研究目前尚处于起步阶段,其反应机理和催化反应过程尚不清楚。因此,有必要在原子水平上系统地了解电催化剂在C―C键裂解过程中的作用。在本综述中,我们首先依次介绍了广泛研究的TM电催化剂介导的生物质衍生有机分子(包括甘油、环己醇、木质素和糠醛)的C―C键裂解反应,并给出了一些典型的例子和相应的反应途径。然后,系统回顾了过渡金属化合物催化C―C键裂解的反应机理,揭示了界面行为,并构建了TM电催化剂的结构与裂解反应活性之间的构效关系。最后,我们简要总结了上述内容,并强调了在TM电催化剂上研究C―C键裂解的挑战和展望。我们期望这项工作可以为生物质的可控转化和合理设计C―C键裂解的TM电催化剂提供指导。

信号转导和转录激活因子3/CC趋化因子配体2信号通路对乳腺癌细胞活力、迁移和侵袭的影响实验研究

目的:探讨信号转导和转录激活因子3(STAT3)/CC趋化因子配体2(CCL2)信号通路对乳腺癌细胞活力、迁移和侵袭的影响。方法:体外培养人乳腺癌细胞株(HCC1937、MCF-7、MDA-MB-231、ZR-75-1)和人正常乳腺上皮细胞(MCF-10A)。采用蛋白印迹法检测HCC1937、MCF-7、MDA-MB-231、ZR-75-1和MCF-10A细胞磷酸化STAT3(p-STAT3)、STAT3、CCL2蛋白表达。选取p-STAT3/STAT3蛋白比值、CCL2蛋白表达最高的人乳腺癌细胞进行后续实验。将MCF-7细胞分为对照组、STAT3抑制剂(WP1066)Ⅰ组(2μmol/L WP1066)、Ⅱ组(4μmol/L WP1066)、Ⅲ组(8μmol/L WP1066)。分别采用细胞计数试剂盒-8、划痕实验、Transwell实验检测MCF-7细胞活力、迁移率及侵袭能力。采用蛋白印迹法检测MCF-7细胞p-STAT3、STAT3、CCL2、基质金属蛋白酶(MMP)-2、MMP-9蛋白表达。结果:与MCF-10A细胞比较,HCC1937、MCF-7、MDA-MB-231、ZR-75-1细胞p-STAT3/STAT3蛋白比值、CCL2蛋白表达升高(均P<0.05)。其中MCF-7细胞p-STAT3/STAT3蛋白比值、CCL2蛋白表达最高,因此选用MCF-7细胞进行后续实验。与对照组比较,STAT3抑制剂Ⅰ、Ⅱ、Ⅲ组MCF-7细胞活力、迁移率、侵袭数目依次降低(均P<0.05)。与对照组比较,STAT3抑制剂Ⅰ、Ⅱ、Ⅲ组MCF-7细胞p-STAT3/STAT3蛋白比值、CCL2、MMP-2及MMP-9蛋白表达依次降低(均P<0.05)。结论:乳腺癌细胞中STAT3/CCL2呈高表达,抑制STAT3/CCL2信号通路能够降低乳腺癌细胞活力,减少迁移和侵袭。