掺杂和点缺陷调控MoS_(2)/ZnO异质结光解水性能的第一性原理研究

采用第一性原理计算方法研究了C,Pd元素掺杂及点缺陷MoS_(2)/ZnO异质结的电子结构、光学性质及光催化性能.计算结果表明,本征MoS_(2)/ZnO异质结具有0.66 eV的直接带隙,带边位置呈现Ⅱ型能带排列.掺杂和缺陷可以有效减小MoS_(2)/ZnO异质结的带隙,Pd@Zn为磁性半导体,VMo和VZn体系具有磁性半金属特性.掺杂和缺陷使MoS_(2)/ZnO异质结禁带之中出现杂质能级,有利于电子跃迁,吸收范围扩展至红外波段,在可见光范围(500~760 nm)内的光吸收系数提高.本征、掺杂与缺陷MoS_(2)/ZnO异质结体系界面处均存在由ZnO层指向MoS_(2)层的内建电场,促使本征MoS_(2)/ZnO异质结,C@S_(2),Pd@Zn,V_(S1),VS_(2)和VO体系形成直接Z型异质结,促进了光生电子-空穴对的有效分离.异质结的带边电位跨过pH=0和7时的氧化还原电位,表明这些异质结可以在强酸溶液与中性溶液条件下进行氧化还原反应,且载流子具有较强的氧化还原能力.研究结果为基于MoS_(2)/ZnO异质结的设计提供了理论参考.

白花丹素通过调节TGF-β1/Smad2及Nrf2/NOX4通路改善博来霉素诱导的肺纤维化

目的:探究白花丹素(plumbagi,PL)对博来霉素诱导的肺纤维化(pulmonary fibrosis,PF)的保护作用及其可能性机制。方法:将60只雄性C57BL/6小鼠随机分为:对照组(Control)、博来霉素组(bleomycin,BLM)、PL低剂量组(1 mg/kg)、PL高剂量组(2 mg/kg)。采用气管内注射BLM(3 mg/kg)复制小鼠PF模型,腹腔注射PL(1或2 mg/kg)3周,处死动物。HE与Masson染色观察肺组织形态学变化及胶原沉积情况。检测小鼠肺组织中超氧化物歧化酶(superoxide dis‐mutase,SOD)、谷胱甘肽(glutathione,GSH)、丙二醛(malondialdehyde,MDA)和羟脯氨酸(hydroxy‐proline,HYP)活性或含量。酶联免疫吸附试验(enzyme linked immunosorbent assay,ELISA)检测小鼠肺组织中白介素-6(interleukin-6,IL-6)含量。免疫组化检测小鼠肺组织中核因子相关因子2(nuclear factor related factor 2,Nrf2)和NADPH氧化酶4(reduced nicotinamide adenine dinucleotide phosphate oxidase 4,NOX4)阳性细胞表达。Western blotting检测α-平滑肌肌动蛋白(α-smooth muscle actin,α-SMA)、I型胶原(collagen Ⅰ,Col Ⅰ)、Ⅲ型胶原(collagen Ⅲ,Col Ⅲ)、IL-6、转化生长因子-β_(1)(transforming growth factor-β_(1),TGF-β_(1))、p-Smad2、Nrf2和NOX4的蛋白表达。结果:与BLM组相比,PL治疗可减轻小鼠肺间质损伤及细胞外基质沉积,降低HYP含量(P<0.01,P<0.05),降低α-SMA、Col Ⅰ和Col Ⅲ的蛋白表达(P<0.01,P<0.05),减少IL-6的分泌(P<0.01),提高机体抗氧化能力(增强SOD和GSH的活性,减少MDA含量,P<0.01,P<0.05),显著下调TGF-β_(1)、p-Smad2和NOX4阳性细胞及蛋白表达(P<0.01,P<0.05),上调Nrf2阳性细胞及蛋白表达(P<0.01,P<0.05)。结论:PL可能通过调节TGF-β_(1)/Smad2及Nrf2/NOX4信号通路减轻炎症反应与胶原沉积,提高机体抗氧化能力,从而延缓PF进程。

CYP2J2通过激活Notch1途径改善慢性间歇性低氧后心血管损伤的实验研究

目的:探讨细胞色素P450表氧化酶2J2(CYP2J2)对慢性间歇性低氧(CIH)模型大鼠心血管损伤的影响及机制。方法:将50只SD大鼠随机分为对照组、CYP2J2组、CIH组、CIH+CYP2J2组、CIH+CYP2J2+DAPT组,每组10只。CIH组、CIH+CYP2J2组及CIH+CYP2J2+DAPT组大鼠均构建CIH模型;造模成功后,CYP2J2组、CIH+CYP2J2组、CIH+CYP2J2+DAPT组大鼠一次性尾静脉注射携带CYP2J2基因的重组腺病毒;CIH+CYP2J2+DAPT组再通过腹腔注射DAPT。2周后,采用高分辨率小动物超声影像系统测定各组大鼠左室缩短分数(FS)、射血分数(EF)、左室收缩末期容积(LVESV)和左室舒张末期容积(LVEDV);自动生化分析仪检测血清肌酸激酶同工酶(CK-MB)与心肌肌钙蛋白I(cTnI)含量;硝酸还原酶法测定血清一氧化氮(NO)含量;酶联免疫吸附法(ELISA)测定血浆内皮素-1(ET-1)含量;苏木精-伊红(HE)染色观察主动脉及心肌组织形态学变化;末端DNA转移酶dUTP缺口末端标记法(TUNEL)染色观察心肌细胞凋亡情况;生化指标检测试剂盒测定心肌组织超氧化物歧化酶(SOD)活性与丙二醛(MDA)含量;蛋白免疫印迹法(Western Blot)测定心肌组织Notch受体1(Notch1)信号途径相关蛋白表达水平。结果:与CIH组比较,CIH+CYP2J2组大鼠FS和NO水平升高,LVESV、LVEDV及CK-MB、cTnI、ET-1水平均降低,主动脉结构基本清晰,细胞肿大、脱落及血管壁增厚等现象均有所改善,心肌纤维断裂、心肌细胞肿大等现象减轻,心肌组织TUNEL阳性细胞比例减少,SOD活性升高,MDA含量下降,Notch1和Hes1蛋白相对表达量上调,差异均有统计学意义(P<0.05)。与CIH+CYP2J2组比较,CIH+CYP2J2+DAPT组大鼠FS和NO水平降低,LVESV、LVEDV及CK-MB、cTnI、ET-1水平均升高,主动脉组织及心肌组织病理损伤现象显著,心肌组织TUNEL阳性细胞比例增加,SOD活性下降,MDA含量升高,Notch1和Hes1蛋白相对表达量下调,差异均有统计学意义(P<0.05)。结论:CYP2J2可改善CIH大鼠心血管损伤,减少心肌细胞凋亡,并抑制氧化应激水平,该机制可能与激活Notch1途径有关。

4d金属掺杂MoS_(2)改善对NO_(2)传感性能的机理研究

二硫化钼(MoS_(2))是一种热门的气体传感器材料.针对MoS_(2)与气体分子之间的弱相互作用问题,掺杂是一种有效的解决方式.本文利用基于密度泛函理论(DFT)的第一性原理平面波超软赝势计算方法,对二氧化氮(NO_(2))分子在4d金属掺杂后的MoS_(2)表面上吸附的微观机制进行了理论研究.研究结果表明:4d过渡金属元素掺杂有利于提高MoS_(2)吸附NO_(2)后的稳定性,且掺杂改变了材料表面的还原性,改善了其传感性能.掺入4d金属原子的材料禁带宽度显著减小,并且在费米能级附近形成了新的杂质峰,这大大提升了它的导电性.且掺杂原子的4d与5s轨道电子之间的协同作用会提升气体分子与材料之间的传感特性,这表明4d金属原子掺入MoS_(2)可以成为一种有效的NO_(2)传感器材料.本文的工作有助于寻求合适的化学掺杂的方法来提高MoS_(2)基气体传感器的性能.

金属二聚体和氮共掺杂石墨烯(Gra)M_(2)N_(6)-Gra(M=Cr-Cu)的NO_(2)吸附特性理论研究

NO_(2)是空气污染物的主要成分之一,设计和开发高效的气敏传感器对NO_(2)进行检测具有重要意义.本工作利用基于密度泛函理论(DFT)的第一性原理计算方法对不同过渡金属原子形成的金属二聚体和氮共掺杂石墨烯(Gra)M_(2)N_(6)-Gra(M=Cr-Cu)的NO_(2)吸附特性进行了研究.结果表明,NO_(2)分子与M_(2)N_(6)-Gra之间均存在明显的化学吸附作用.其中,Ni_(2)N_(6)-Gra和Cu_(2)N_(6)-Gra体系具备较为适中的恢复时间(分别约为5秒和14分钟),这意味着这两个体系是开发新型NO_(2)气敏材料的潜在候选者.其它体系(M_(2)N_(6)-Gra,M=Cr-Co)强的吸附作用导致恢复时间过长,从而使得它们不适合作为NO_(2)气敏材料.这一研究不仅有望为设计和开发性能优异的新型NO_(2)气敏材料提供有益理论指导,还将有益于人们深入认识M_(2)N_(6)-Gra材料的NO_(2)电催化合成NO或NH 3性能.

SiS_(2)/ZnO范德华异质结光催化水分解第一性原理研究

基于第一性原理方法,研究了SiS_(2)/ZnO范德华异质结的电子结构和光催化性质.结果表明,SiS_(2)/ZnO异质结是带隙值为1.32 eV的半导体材料,表现出交错排列的能带结构.在异质结界面处,形成了从ZnO指向SiS_(2)的内置电场,该内置电场的存在使得SiS_(2)/ZnO异质结中形成了特殊的“Z-型”载流子迁移模式,有利于电子空穴对的有效分离,同时增强了载流子的氧化还原能力.异质结构具有良好的热力学稳定性,且带边位置跨越水的氧化还原电位.与单层材料相比,SiS_(2)/ZnO异质结光吸收谱出现红移现象,表现出更宽的光吸收范围(从可见光到紫外光)及更强的光吸收强度(达到10~5 cm^(-1)量级).另外,通过施加双轴应变,可以有效调控SiS_(2)/ZnO异质结的带隙值.以上结果表明SiS_(2)/ZnO异质结有潜力成为新型光催化剂用于全解水.

2D TiO_(2)/ZnO的合成及光催化活性

光催化技术具有降解速率高、无毒、成本低等特点,在抗生素废水处理方面具有良好的应用前景。文章采用水热法合成2D TiO_(2)/ZnO复合氧化物光催化剂,通过降解盐酸四环素(TCH)评价了其光催化活性,并探究了TiO_(2)负载量、煅烧温度、煅烧时间和盐酸四环素用量对光催化活性的影响。结果表明:与2D TiO_(2)和2D ZnO相比,2D TiO_(2)/ZnO-50具有更好的催化活性,在煅烧温度为300℃,煅烧时间为2 h的条件下,在可见光下对5 mg/L TCH的降解率可达93.0%,对20 mg/L的盐酸四环素的降解率为82.2%。在2D TiO_(2)/ZnO-50浓度为200 mg/L,盐酸四环素浓度为20 mg/L时,2D TiO_(2)/ZnO-50光催化降解盐酸四环素属于准一级动力学反应,速率常数为0.00909 min-1,半衰期为76.2 min。

Scalable Ir‑Doped NiFe_(2)O_(4)/TiO_(2) Heterojunction Anode for Decentralized Saline Wastewater Treatment and H_(2) Production

Wastewater electrolysis cells(WECs)for decentralized wastewater treatment/reuse coupled with H_(2) production can reduce the carbon footprint associated with transportation of water,waste,and energy carrier.This study reports Ir-doped NiFe_(2)O_(4)(NFI,~5 at%Ir)spinel layer with TiO_(2) overlayer(NFI/TiO_(2)),as a scalable heterojunction anode for direct electrolysis of wastewater with circumneutral pH in a single-compartment cell.In dilute(0.1 M)NaCl solutions,the NFI/TiO_(2) marks superior activity and selectivity for chlorine evolution reaction,outperforming the benchmark IrO_(2).Robust operation in near-neutral pH was confirmed.Electroanalyses including operando X-ray absorption spectroscopy unveiled crucial roles of TiO_(2) which serves both as the primary site for Cl−chemisorption and a protective layer for NFI as an ohmic contact.Galvanostatic electrolysis of NH4+-laden synthetic wastewater demonstrated that NFI/TiO_(2)not only achieves quasi-stoichiometric NH_(4)^(+)-to-N_(2)conversion,but also enhances H_(2)generation efficiency with minimal competing reactions such as reduction of dissolved oxygen and reactive chlorine.The scaled-up WEC with NFI/TiO_(2)was demonstrated for electrolysis of toilet wastewater.

Bearing Fault Diagnosis Based on the Markov Transition Field and SE-IShufflenetV2 Model

A bearing fault diagnosis method based on the Markov transitionfield(MTF)and SEnet(SE)-IShufflenetV2 model is proposed in this paper due to the problems of complex working conditions,low fault diagnosis accuracy,and poor generalization of rolling bearing.Firstly,MTF is used to encode one-dimensional time series vibration sig-nals and convert them into time-dependent and unique two-dimensional feature images.Then,the generated two-dimensional dataset is fed into the SE-IShufflenetV2 model for training to achieve fault feature extraction and classification.This paper selects the bearing fault datasets from Case Western Reserve University and Paderborn University to experimentally verify the effectiveness and superiority of the proposed method.The generalization performance of the proposed method is tested under the variable load condition and different signal-to-noise ratios(SNRs).The experimental results show that the average accuracy of the proposed method under different working conditions is 99.2%without adding noise.The accuracy under different working conditions from 0 to 1 HP is 100%.When the SNR is 0 dB,the average accuracy of the proposed method can still reach 98.7%under varying working conditions.Therefore,the bearing fault diagnosis method proposed in this paper is characterized by high accuracy,strong anti-noise ability,and generalization.Moreover,the proposed method can also overcome the influence of variable working conditions on diagnosis accuracy,providing method support for the accurate diagnosis of bearing faults under strong noise and variable working conditions.

CiNAC2 positively regulates drought stress tolerance by promoting superoxide dismutase activity in pecan(Carya illinoinensis)

Pecan is an extremely important crop cultivated worldwide for edible nuts and nut oil.Considering the changes in precipitation and soil moisture caused by climate change and worsening global water scarcity,it is important to understand the mechanism of pecan response to drought.To this end,this study investigated the response of pecan to drought stress and rehydration using physiological and transcriptomic analyses.Superoxide dismutase(SOD)enzyme activity in leaves was significantly upregulated during drought stress,suggesting that it might play an important role in drought response.Weighted gene co-expression network analysis of the transcriptome data was used to screen for a key drought-responsive gene,CiNAC2,which was overexpressed in Arabidopsis thaliana for functional validation.The analysis of stomatal apertures and the water loss rate in leaves showed that CiNAC2 might respond to drought stress via mediating stomatal aperture size.In addition,CiNAC2 could promote root growth under drought conditions.CiSOD1 was verified as a direct target gene of CiNAC2 by yeast one-hybrid assay dual-luciferase reporter assay.Yeast one-hybrid analysis confirmed that CiNAC2 bound to the promoters of CiSOD1.Transient expression in Nicotiana benthamiana epidermis showed that CiNAC2 upregulated the expression of CiSOD1.These results demonstrated that CiNAC2 enhanced drought stress tolerance via promoting SOD activity in pecan and provided a theoretical basis for breeding drought-resistant varieties in pecan.

Increased excitatory amino acid transporter 2 levels in basolateral amygdala astrocytes mediate chronic stress–induced anxiety-like behavior

The conventional perception of astrocytes as mere supportive cells within the brain has recently been called into question by empirical evidence, which has revealed their active involvement in regulating brain function and encoding behaviors associated with emotions.Specifically, astrocytes in the basolateral amygdala have been found to play a role in the modulation of anxiety-like behaviors triggered by chronic stress. Nevertheless, the precise molecular mechanisms by which basolateral amygdala astrocytes regulate chronic stress–induced anxiety-like behaviors remain to be fully elucidated. In this study, we found that in a mouse model of anxiety triggered by unpredictable chronic mild stress, the expression of excitatory amino acid transporter 2 was upregulated in the basolateral amygdala. Interestingly, our findings indicate that the targeted knockdown of excitatory amino acid transporter 2 specifically within the basolateral amygdala astrocytes was able to rescue the anxiety-like behavior in mice subjected to stress. Furthermore, we found that the overexpression of excitatory amino acid transporter 2 in the basolateral amygdala, whether achieved through intracranial administration of excitatory amino acid transporter 2agonists or through injection of excitatory amino acid transporter 2-overexpressing viruses with GfaABC1D promoters, evoked anxiety-like behavior in mice. Our single-nucleus RNA sequencing analysis further confirmed that chronic stress induced an upregulation of excitatory amino acid transporter 2 specifically in astrocytes in the basolateral amygdala. Moreover, through in vivo calcium signal recordings, we found that the frequency of calcium activity in the basolateral amygdala of mice subjected to chronic stress was higher compared with normal mice.After knocking down the expression of excitatory amino acid transporter 2 in the basolateral amygdala, the frequency of calcium activity was not significantly increased, and anxiety-like behavior was obviously mitigated. Additionally, administration of an excitatory amino acid transporter 2 inhibitor in the basolateral amygdala yielded a notable reduction in anxiety level among mice subjected to stress. These results suggest that basolateral amygdala astrocytic excitatory amino acid transporter 2 plays a role in in the regulation of unpredictable chronic mild stress-induced anxiety-like behavior by impacting the activity of local glutamatergic neurons, and targeting excitatory amino acid transporter 2 in the basolateral amygdala holds therapeutic promise for addressing anxiety disorders.

Colony-stimulating factor 3 and its receptor promote leukocyte immunoglobulin-like receptor B2 expression and ligands in gastric

BACKGROUND Colony-stimulating factor 3(CSF3)and its receptor(CSF3R)are known to promote gastric cancer(GC)growth and metastasis.However,their effects on the immune microenvironment remain unclear.Our analysis indicated a potential link between CSF3R expression and the immunosuppressive receptor leukocyte immunoglobulin-like receptor B2(LILRB2)in GC.We hypothesized that CSF3/CSF3R may regulate LILRB2 and its ligands,angiopoietin-like protein 2(ANGPTL2)and human leukocyte antigen-G(HLA-G),contributing to immunosuppression.AIM To investigate the relationship between CSF3/CSF3R and LILRB2,as well as its ligands ANGPTL2 and HLA-G,in GC.METHODS Transcriptome sequencing data from The Cancer Genome Atlas were analyzed,stratifying patients by CSF3R expression.Differentially expressed genes and immune checkpoints were evaluated.Immunohistochemistry(IHC)was performed on GC tissues.Correlation analyses of CSF3R,LILRB2,ANGPTL2,and HLA-G were conducted using The Cancer Genome Atlas data and IHC results.GC cells were treated with CSF3,and expression levels of LILRB2,ANGPTL2,and HLA-G were measured by quantitative reverse transcriptase-polymerase chain reaction and western blotting.RESULTS Among 122 upregulated genes in high CSF3R expression groups,LILRB2 showed the most significant increase.IHC results indicated high expression of LILRB2(63.0%),ANGPTL2(56.5%),and HLA-G(73.9%)in GC tissues.Strong positive correlations existed between CSF3R and LILRB2,ANGPTL2,and HLA-G mRNA levels(P<0.001).IHC confirmed positive correlations between CSF3R and LILRB2(P<0.001),and HLA-G(P=0.010),but not ANGPTL2(P>0.05).CSF3 increased LILRB2,ANGPTL2,and HLA-G expression in GC cells.Heterogeneous nuclear ribonucleoprotein H1 modulation significantly altered their expression,impacting CSF3’s regulatory effects.CONCLUSION The CSF3/CSF3R pathway may contribute to immunosuppression in GC by upregulating LILRB2 and its ligands,with heterogeneous nuclear ribonucleoprotein H1 playing a regulatory role.

Two APETALA2/ETHYLENE RESPONSE FACTORS coordinately with Ca MYC2 positively regulate capsaicinoid biosynthesis in pepper(Capsicum annuum)

The transcriptional cascade and regulatory loop play crucial roles in regulating plant-specialized metabolite biosynthesis.Capsaicinoids are unique to the genus Capsicum and confer a pungent flavor to its fruits.However,the transcriptional regulation of capsaicinoid biosynthesis remains largely unknown.In this study,two AP2/ERF transcription factors(TFs),CaERF102 and CaERF111,were characterized for their role in the capsaicinoid biosynthesis process.Expression analysis of two ERFs and capsaicinoid biosynthetic genes(CBGs)suggested that they were associated with capsaicinoid biosynthesis.Both ERFs encode nuclear-localized proteins and function as transcriptional activators through their C-terminal activation motifs.The two ERF TFs participated in capsaicinoid biosynthesis by directly activating the promoters of key CBGs,and this activation was significantly enhanced when CaMYC2 was co-expressed.Moreover,CaERF102 and CaERF111 were found to interact with CaMYC2.This study helps elucidate the AP2/ERF TF regulatory network that governs capsaicinoid biosynthesis in Capsicum species.

Cu-MnO_(2)的制备及电催化析氢性能研究

通过沉淀法和热解法制备了系列MnO_(2)催化剂。X射线衍射仪(XRD)和扫描电子显微镜(SEM)表征显示Mn O2为正方晶系的针状晶体。循环伏安法、线性扫描伏安法以及电化学阻抗法的检测表明Cu掺杂可影响MnO_(2)的电催化性能,相比之下,其中的Cu0.85-MnO_(2)有最佳的电催化析氢性能,即电流密度为10 mA·cm^(-2)时的过电位(304 mV)最低、Tafel斜率(98 mV·dec^(-1))最小、电化学活性面积(137.25)最大,界面电荷转移电阻(53.28Ω)最小。

Protein tyrosine phosphatase nonreceptor 2:A New biomarker for digestive tract cancers

In this editorial,the roles of protein tyrosine phosphatase nonreceptor 2(PTPN2)in oncogenic transformation and tumor behavior and its potential as a therapeutic target in the context of gastrointestinal(GI)cancers are presented with respect to the article by Li et al published in ninth issue of the World Journal of Gastrointestinal Oncology.PTPN2 is a member of the protein tyrosine phosphatase family of signaling proteins that play crucial roles in the regulation of inflammation and immunity.Accordingly,early findings highlighted the contribution of PTPN2 to the pathogenesis of inflammatory and autoimmune disorders related to its dysfunction.On the other hand,recent studies have indicated that PTPN2 has many different roles in different cancer types,which is associated with the complexity of its regulatory network.PTPN2 dephosphorylates and inactivates EGFR,SRC family kinases,JAK1 and JAK3,and STAT1,STAT3,and STAT5 in cell type-and context-dependent manners,which indicates that PTPN2 can perform either prooncogenic or anti-oncogenic functions depending on the tumor subtype.While PTPN2 has been suggested as a potential therapeutic target in cancer treatment,to the best of ourknowledge,no clear treatment protocol has referred to PTPN2.Although there are only few studies that investigated PTPN2 expression in the GI system cancers,which is a potential limitation,the association of this protein with tumor behavior and the influence of PTPN2 on many therapy-related signaling pathways emphasize that PTPN2 could serve as a new molecular biomarker to predict tumor behavior and as a target for therapeutic intervention against GI cancers.In conclusion,more studies should be performed to better understand the prognostic and therapeutic potential of PTPN2 in GI tumors,especially in tumors resistant to therapy.

SARS-CoV-2 proteins show great binding affinity to resin composite monomers and polymerized chains

BACKGROUND Due to saliva and salivary glands are reservoir to severe acute respiratory syndrome-coronavirus 2(SARS-CoV-2),aerosols and saliva droplets are primary sources of cross-infection and are responsible for the high human–human transmission of SARS-CoV-2.However,there is no evidence about how SARSCoV-2 interacts with oral structures,particularly resin composites.AIM To evaluate the interaction of SARS-CoV-2 proteins with monomers present in resin composites using in silico analysis.METHODS Four SARS-CoV-2 proteins[i.e.main protease,3C-like protease,papain-like protease(PLpro),and glycoprotein spike]were selected along with salivary amylase as the positive control,and their binding affinity with bisphenol-A glycol dimethacrylate,bisphenol-A ethoxylated dimethacrylate,triethylene glycol dimethacrylate,and urethane dimethacrylate was evaluated.Molecular docking was performed using AutoDock Vina and visualised in Chimera UCSF 1.14.The best ligand–protein model was identified based on the binding energy(ΔG–kcal/moL).RESULTS Values for the binding energies ranged from-3.6 kcal/moL to-7.3 kcal/moL.The 3-monomer chain had the lowest binding energy(i.e.highest affinity)to PLpro and the glycoprotein spike.Non-polymerised monomers and polymerised chains interacted with SARS-CoV-2 proteins via hydrogen bonds and hydrophobic interactions.Those findings suggest an interaction between SARS-CoV-2 proteins and resin composites.CONCLUSION SARS-CoV-2 proteins show affinity to non-polymerised and polymerised resin composite chains.

HMGB2 knockdown ameliorates retinal ganglion cell injury by inhibiting NLRP3 inflammasome activation after retinal ischemia

AIM:To explore the neuroprotective effects of high mobility group box 2(HMGB2)knockdown on retinal ganglion cells(RGCs)in the retinal ischemia-reperfusion injury(RIRI).METHODS:Oxygen-glucose deprivation(OGD)-injured RGCs from postnatal three-day C57BL/6 mice pups and high intraocular pressure(IOP)-induced RIRI mice were used as cellular and animal models of RIRI.The expression of HMGB2 in the retina of RIRI mice and OGD-injured RGCs was detected through reverse transcription-polymerase chain reaction(RT-qPCR)and Western blotting.The effects of HMGB2 silencing on the morphological changes,RGCs survival,and cell apoptosis in mouse retinal tissues were observed through H&E staining,immunofluorescence staining with RNA-binding protein with multiple splicing(RBPMS)antibody,and TUNEL staining,respectively.RGC viability and apoptosis were examined by CCK-8 and flow cytometry assays.The levels of proteins associated with NOD-like receptor thermal protein domain associated protein 3(NLRP3)-mediated pyroptosis[NLRP3,Caspase-1,GSDMD-N,interleukin(IL)-1β,IL-18]in vivo and in vitro were measured by Western blotting.RESULTS:HMGB2 protein and NLRP3 were upregulated in the retina of RIRI mice and OGD-injured RGCs(P<0.001).The retina was edematous,accompanied by disorganized cell arrangement and decreased thickness of all layers,and obvious vacuoles in ganglion cell layer.HMGB2 silencing alleviated the reduction in total retinal thickness and the severity of retinal tissue damage as well as suppressed RGC loss and retinal cell apoptosis in RIRI mice.OGD-induced RGC apoptosis was ameliorated after downregulation of HMGB2 in vitro.Intravitreal injection of the AAV-sh-HMGB2 and si-HMGB2 resulted in significantly decrease of NLRP3,Caspase-1,GSDMD-N,IL-1β,and IL-18 protein levels in the retinal tissues of RIRI mice and OGD-injured RGCs,respectively(all P<0.001).CONCLUSION:HMGB2 knockdown protects against RGC apoptosis and pyroptosis after RIRI through suppressing NLRP3 inflammasome activation.

Association between serum retinol-binding protein and lower limb atherosclerosis risk in type 2 diabetes mellitus

BACKGROUND Serum retinol-binding protein(RBP)is the primary transport protein of circulating vitamin A.RBP has a crucial role in maintaining nutrient metabolism and physiologic homeostasis.Several studies have indicated that serum RBP participates in the progression of diabetes and diabetes-related complications.However,the impact of serum RBP on lower limb atherosclerosis has not been determined in individuals with type 2 diabetes mellitus(T2DM).AIM To determine the association between serum RBP and lower limb atherosclerosis in individuals with T2DM.METHODS This retrospective study enrolled 4428 eligible T2DM patients and divided the patients into non-lower limb atherosclerosis(n=1913)and lower limb atherosclerosis groups(n=2515)based on lower limb arterial ultrasonography results.At hospital admission,baseline serum RBP levels were assessed,and all subjects were categorized into three groups(Q1-Q3)based on RBP tertiles.Logistic regression,restricted cubic spline regression,subgroup analysis,and machine learning were used to assess the association between RBP levels and lower limb atherosclerosis risk.RESULTS Among 4428 individuals with T2DM,2515(56.80%)had lower limb atherosclerosis.Logistic analysis showed that lower limb atherosclerosis risk increased by 1%for every 1 unit rise in serum RBP level(odds ratio=1.01,95%confidence interval:1.00-1.02,P=0.004).Patients in the highest tertile group(Q3)had a higher lower limb atherosclerosis risk compared to the lowest tertile group(Q1)(odds ratio=1.36,95%confidence interval:1.12-1.67,P=0.002).The lower limb atherosclerosis risk gradually increased with an increase in RBP tertile(P for trend=0.005).Restricted cubic spline analysis indicated a linear correlation between serum RBP levels and lower limb atherosclerosis risk(non-linear P<0.05).Machine learning demonstrated the significance and diagnostic value of serum RBP in predicting lower limb atherosclerosis risk.CONCLUSION Elevated serum RBP levels correlate with an increased lower limb atherosclerosis risk in individuals with T2DM.

Clinical significance of Ki-67 in patients with lung adenocarcinoma in situ complicated by type 2 diabetes

BACKGROUND The increasing number of type 2 diabetes mellitus(T2DM)patients leads to higher rates of morbidity and mortality related to lung cancer.AIM To investigate the utility of the proliferating cell nuclear antigen Ki-67 in patients with lung adenocarcinoma in situ(AIS)complicated by T2DM.METHODS One hundred patients with AIS and T2DM(group A),100 patients with AIS alone(group B),and 60 patients with benign lung lesions(group C)admitted to the Department of Thoracic Surgery and Endocrinology of the First Affiliated Hospital of Soochow University from November 2021 to December 2022 were enrolled.Ki-67 expression was compared among the groups.RESULTS Group A had significantly higher levels of fasting plasma glucose(FPG),total cholesterol(TC),total triglyceride,low-density lipoprotein cholesterol,glycosylated hemoglobin(HbA1c),and insulin than groups B and C(P<0.01).Meanwhile,group B had higher insulin levels than group C(P<0.01).Group A exhibited a significantly higher average Ki-67 positivity rate than group B(P<0.01).The Ki-67 positivity rate in group A was 86.87%,while the positivity rate in group B was 77%.Ki-67 was positively correlated with FPG(P<0.01)and HbA1c levels(P<0.01).Ki-67,FBG,insulin,HbA1c,high-density lipoprotein cholesterol and TC were independent factors for patients with AIS complicated by T2DM.Chen K et al.Ki67 in patients with AIS complicated by T2DM WJD https://www.wjgnet.com 2 February 15,2025 Volume 16 Issue 2 CONCLUSION Ki-67 expression was higher in patients with AIS complicated by T2DM than in patients with AIS alone.Therefore,detecting the Ki-67 level might assist in the diagnosis of AIS in patients with T2DM.

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.