Hepatic steatosis is associated with dysregulated cholesterol metabolism and altered protein acetylation dynamics in chickens

Background Hepatic steatosis is a prevalent manifestation of fatty liver, that has detrimental effect on the health and productivity of laying hens, resulting in economic losses to the poultry industry. Here, we aimed to systematically investigate the genetic regulatory mechanisms of hepatic steatosis in laying hens.Methods Ninety individuals with the most prominent characteristics were selected from 686 laying hens according to the accumulation of lipid droplets in the liver, and were graded into three groups, including the control, mild hepatic steatosis and severe hepatic steatosis groups. A combination of transcriptome, proteome, acetylome and lipidome analyses, along with bioinformatics analysis were used to screen the key biological processes, modifications and lipids associated with hepatic steatosis.Results The rationality of the hepatic steatosis grouping was verified through liver biochemical assays and RNA-seq. Hepatic steatosis was characterized by increased lipid deposition and multiple metabolic abnormalities. Integration of proteome and acetylome revealed that differentially expressed proteins(DEPs) interacted with differentially acetylated proteins(DAPs) and were involved in maintaining the metabolic balance in the liver. Acetylation alterations mainly occurred in the progression from mild to severe hepatic steatosis, i.e., the enzymes in the fatty acid oxidation and bile acid synthesis pathways were significantly less acetylated in severe hepatic steatosis group than that in mild group(P < 0.05). Lipidomics detected a variety of sphingolipids(SPs) and glycerophospholipids(GPs) were negatively correlated with hepatic steatosis(r ≤-0.5, P < 0.05). Furthermore, the severity of hepatic steatosis was associated with a decrease in cholesterol and bile acid synthesis and an increase in exogenous cholesterol transport.Conclusions In addition to acquiring a global and thorough picture of hepatic steatosis in laying hens, we were able to reveal the role of acetylation in hepatic steatosis and depict the changes in hepatic cholesterol metabolism. The findings provides a wealth of information to facilitate a deeper understanding of the pathophysiology of fatty liver and contributes to the development of therapeutic strategies.

IL-17 induces NSCLC cell migration and invasion by elevating MMP19 gene transcription and expression through the interaction of p300-dependent STAT3-K631 acetylation and its Y705-phosphorylation

The cancer cell metastasis is a major death reason for patients with non-small cell lung cancer(NSCLC).Although researchers have disclosed that interleukin 17(IL-17)can increase matrix metalloproteinases(MMPs)induction causing NSCLC cell metastasis,the underlying mechanism remains unclear.In the study,we found that IL-17 receptor A(IL-17RA),p300,p-STAT3,Ack-STAT3,and MMP19 were up-regulated both in NSCLC tissues and NSCLC cells stimulated with IL-17.p300,STAT3 and MMP19 overexpression or knockdown could raise or reduce IL-17-induced p-STAT3,Ack-STAT3 and MMP19 level as well as the cell migration and invasion.Mechanism investigation revealed that STAT3 and p300 bound to the same region(−544 to−389 nt)of MMP19 promoter,and p300 could acetylate STAT3-K631 elevating STAT3 transcriptional activity,p-STAT3 or MMP19 expression and the cell mobility exposed to IL-17.Meanwhile,p300-mediated STAT3-K631 acetylation and its Y705-phosphorylation could interact,synergistically facilitating MMP19 gene transcription and enhancing cell migration and invasion.Besides,the animal experiments exhibited that the nude mice inoculated with NSCLC cells by silencing p300,STAT3 or MMP19 gene plus IL-17 treatment,the nodule number,and MMP19,Ack-STAT3,or p-STAT3 production in the lung metastatic nodules were all alleviated.Collectively,these outcomes uncover that IL-17-triggered NSCLC metastasis involves up-regulating MMP19 expression via the interaction of STAT3-K631 acetylation by p300 and its Y705-phosphorylation,which provides a new mechanistic insight and potential strategy for NSCLC metastasis and therapy.

Enhanced autophagic clearance of amyloid-βvia histone deacetylase 6-mediated V-ATPase assembly and lysosomal acidification protects against Alzheimer's disease in vitro and in vivo

Recent studies have suggested that abnormal acidification of lysosomes induces autophagic accumulation of amyloid-βin neurons,which is a key step in senile plaque formation.Therefore,resto ring normal lysosomal function and rebalancing lysosomal acidification in neurons in the brain may be a new treatment strategy for Alzheimer's disease.Microtubule acetylation/deacetylation plays a central role in lysosomal acidification.Here,we show that inhibiting the classic microtubule deacetylase histone deacetylase 6 with an histone deacetylase 6 shRNA or thehistone deacetylase 6 inhibitor valproic acid promoted lysosomal reacidification by modulating V-ATPase assembly in Alzheimer's disease.Fu rthermore,we found that treatment with valproic acid markedly enhanced autophagy.promoted clearance of amyloid-βaggregates,and ameliorated cognitive deficits in a mouse model of Alzheimer's disease.Our findings demonstrate a previously unknown neuroprotective mechanism in Alzheimer's disease,in which histone deacetylase 6 inhibition by valproic acid increases V-ATPase assembly and lysosomal acidification.

黏液-纤毛标志物Mucin 5AC-acetylated alpha-tubulin在过敏性鼻炎患者鼻黏膜中的表达

目的探究过敏性鼻炎(AR)患者鼻腔黏液-纤毛清除功能在鼻黏膜分子水平上的损伤表现和严重程度。方法选取2021年3月至2022年3月期间在我院进行鼻中隔偏曲手术的40例患者的下鼻甲黏膜组织,其中AR患者21例(AR组),非AR患者(对照组)19例。通过免疫荧光染色方法在蛋白水平上观察及评估黏液分泌标志物Mucin 5AC(MUC5AC)和纤毛标志物acetylated alpha-tubulin(acet.α-tubulin)表达情况。结果与对照组相比,AR组黏液分泌的总免疫荧光强度增加32.365%,纤毛长度缩短将近1/2,纤毛脱落评分上升将近3倍,纤毛总免疫荧光强度下降24.555%。结论AR患者黏液分泌量显著增加,纤毛排列不齐、变短、稀疏以及脱落增加可能是导致AR患者鼻腔黏膜黏液-纤毛清除功能减弱,继而加重AR症状严重程度的分子依据。

Sodium butyrate alleviates deoxynivalenol-induced hepatic cholesterol metabolic dysfunction via RORγ-mediated histone acetylation modification in weaning piglets

Background:Cholesterol is an essential component of lipid rafts in cell plasma membrane,which exerts a hepatoprotective role against mycotoxin exposure in pigs,and cholesterol metabolism is vulnerable to epigenetic histone acetylation.Therefore,our present study aimed to investigate whether a histone deacetylase inhibitor(sodium butyrate [NaBu]) could protect the porcine liver from deoxynivalenol(DON) exposure by modulating cholesterol metabolism.Herein,we randomly divided 28 pigs into four groups,which were fed an uncontaminated basal diet,contaminated diet(4 mg DON/kg),uncontaminated diet supplemented with 0.2% NaBu or 4 mg/kg DON contaminated diet(4 mg DON/kg) supplemented with 0.2% NaBu for 28 d.Results:We found that the serum alanine transaminase(ALT),aspartate transaminase(AST),and alkaline phosphatase(ALP) were all increased in pigs exposed to DON,indicative of significant liver injury.Furthermore,the cholesterol content in the serum of DON-exposed pigs was significantly reduced,compared to the healthy Vehicle group.Transcriptome analysis of porcine liver tissues revealed that the cholesterol homeostasis pathway was highly enriched due to DON exposure.In which we validated by qRT-PCR and western blotting that the cholesterol program was markedly activated.Importantly,NaBu effectively restored parameters associated with liver injury,along with the cholesterol content and the expression of key genes involved in the cholesterol biosynthesis pathway.Mechanistically,we performed a ChIP-seq analysis of H3K27ac and showed that NaBu strongly diminished DON-increased H3K27ac genome-wide enrichment.We further validated that the elevated H3K27ac and H3K9ac occupancies on cholesterol biosynthesis genes were both decreased by NaBu,as determined by ChIP-qPCR analysis.Notably,nuclear receptor RORγ,a novel regulator of cholesterol biosynthesis,was found in the hyperacetylated regions.Again,a remarkable increase of RORγ at both mRNA and protein levels in DON-exposed porcine livers was drastically reduced by NaBu.Consistent with RORγ expression,NaBu also hindered RORγ transcriptional binding enrichments on these activated cholesterol biosynthesis genes like HMGCR,SQLE,and DHCR24.Furthermore,we conducted an in vitro luciferase reporter assay to verify that porcine RORγ directly bonds to the promoters of the above target genes.Conclusions:Collectively,our results demonstrate the utility of the natural product Na Bu as a potential anti-mycotoxin nutritional strategy for regulating cholesterol metabolism via RORγ-mediated histone acetylation modification.

Histone deacetylase inhibitor pracinostat suppresses colorectal cancer by inducing CDK5-Drp1 signaling-mediated peripheral mitofission

Divisions at the periphery and midzone of mitochondria are two fission signatures that determine the fate of mitochondria and cells.Pharmacological induction of excessively asymmetric mitofissionassociated cell death(MFAD)by switching the scission position from the mitochondrial midzone to the periphery represents a promising strategy for anticancer therapy.By screening a series of paninhibitors,we identified pracinostat,a pan-histone deacetylase(HDAC)inhibitor,as a novel MFAD inducer,that exhibited a significant anticancer effect on colorectal cancer(CRC)in vivo and in vitro.Pracinostat increased the expression of cyclin-dependent kinase 5(CDK5)and induced its acetylation at residue lysine 33,accelerating the formation of complex CDK5/CDK5 regulatory subunit 1 and dynaminrelated protein 1(Drp1)-mediated mitochondrial peripheral fission.CRC cells with high level of CDK5(CDK5-high)displayed midzone mitochondrial division that was associated with oncogenic phenotype,but treatment with pracinostat led to a lethal increase in the already-elevated level of CDK5 in the CRC cells.Mechanistically,pracinostat switched the scission position from the mitochondrial midzone to the periphery by improving the binding of Drp1 from mitochondrial fission factor(MFF)to mitochondrial fission 1 protein(FIS1).Thus,our results revealed the anticancer mechanism of HDACi pracinostat in CRC via activating CDK5-Drp1 signaling to cause selective MFAD of those CDK5-high tumor cells,which implicates a new paradigm to develop potential therapeutic strategies for CRC treatment.

GhHSP24.7 mediates mitochondrial protein acetylation to regulate stomatal conductance in response to abiotic stress in cotton

During seed germination,the cotton chaperone protein HSP24.7 regulates the release,from the mitochondrial electron transport chain,of reactive oxygen species(ROS),a stimulative signal regulating germination.The function of HSP24.7 during vegetative stages remains largely unknown.Here we propose that suppression of Gh HSP24.7 in cotton seedlings increases tolerance to heat and drought stress.Elevation of Gh HSP24.7 was found to be positively associated with endogenous levels of ROS.We identified a new client protein of Gh HSP24.7,cotton lysine deacetylase(Gh HDA14),which is involved in mitochondrial protein modification.Elevated levels of Gh HSP24.7 suppressed deacetylase activity in mitochondria,leading to increased acetylation of mitochondrial proteins enriched in the subunit of Ftype ATPase,V-type ATPase,and cytochrome C reductase,ultimately reducing leaf ATP content.Consequently,in combination with altered ROS content,Gh HSP24.7 transgenic lines were unable to coordinate stomatal closure under stress.The regulation circuit composed of Gh HSP24.7 and Gh HDA14 represents a post-translation level mechanism in plant abiotic stress responses that integrates the regulation of ROS and ATP.

姜黄素通过抑制乙酰转移酶P300表达促进HeLa细胞凋亡

目的:探讨姜黄素(Cur)通过下调HeLa细胞腺病毒E1A相关300 kD蛋白(P300)调控HeLa细胞的活力及凋亡。方法:将对数生长期的HeLa细胞分别采用20、40、60和80μmol/L Cur处理,并以未处理组细胞作为对照,用CCK-8法检测细胞活力;选取20和40μmol/L Cur处理细胞,以流式细胞术检测细胞凋亡,RT-qPCR、Western blot法检测E6基因的mRNA和蛋白表达及凋亡相关蛋白、P300和组蛋白的表达;构建沉默质粒shE6和阴性对照质粒shNC转染HeLa细胞,设置shNC,shNC+Cur(40μmol/L),shE6以及shE6+Cur(40μmol/L)四组,以CCK-8、流式细胞术以及Western blot法分别检测细胞活力、凋亡以及凋亡相关蛋白的表达;构建沉默质粒siP300和阴性对照质粒siNC转染HeLa细胞,RT-PCR、Western blot法分别检测P300的mRNA和蛋白表达、E6的蛋白表达。结果:与未处理组相比,用不同浓度Cur处理HeLa细胞后能显著抑制其活力并可使早期凋亡率增高(P<0.05);Cur处理HeLa细胞后,E6的mRNA及蛋白表达均下调,而敲减E6与未敲减E6的Cur处理组相比,敲减组的早期凋亡率以及促凋亡相关蛋白表达均低于未敲减组(P<0.05);敲减P300后,HeLa细胞中E6蛋白表达降低;而单以Cur处理HeLa细胞后,P300及相关组蛋白表达均下调(P<0.01)。结论:Cur抑制HPV18阳性宫颈癌细胞的活力并促进其凋亡,机制可能与其下调P300而抑制E6蛋白乙酰化有关。

乙酰化葡萄糖施用对盐碱土土壤肥力和细菌群落结构的影响

[目的]乙酰化葡萄糖是一种新型绿色盐碱土改良剂,研究乙酰化葡萄糖对盐碱土土壤肥力和细菌群落的影响,探索乙酰化葡萄糖改良盐碱土的可能作用机制,可为采用乙酰化葡萄糖改良盐碱地提供理论依据。[方法]选取山西省定襄县盐碱土为供试土壤,进行大豆盆栽试验,设置了对照(CK)、3个水平乙酰化葡萄糖处理T1(0.31 g·kg^(-1))、T2(0.62 g·kg^(-1))、T3(0.92 g·kg^(-1))和3个水平葡萄糖处理T4(0.31 g·kg^(-1))、T5(0.62 g·kg^(-1))、T6(0.92 g·kg^(-1)),分析比较不同处理大豆农艺性状、土壤化学性质及酶活性变化,并采用高通量测序技术对大豆根际土壤细菌16S rRNA基因V3-V4区进行多样性测序和分析。[结果]施用乙酰化葡萄糖后,大豆株高、主茎节数、地上部干重、根干重、单株粒数和单株粒重均显著高于对照。土壤pH和电导率分别比对照显著降低了0.21~0.34和8.91%~16.74%,土壤阳离子交换量、有机质含量则显著升高了8.52%~16.43%、4.78%~74.82%;土壤脲酶、碱性磷酸酶、过氧化氢酶活性显著增强。大豆完熟期根际土壤放线菌门的相对丰度显著提高;在属水平上,节杆菌属、斯科曼氏菌属、考克氏菌属的相对丰度显著增加。相关性分析结果显示,节杆菌属、斯科曼氏菌属与土壤pH、电导率显著负相关,与土壤有机质、阳离子交换量显著正相关;考克氏菌属也与土壤pH显著负相关,与阳离子交换量显著正相关。[结论]施用乙酰化葡萄糖能有效降低供试盐碱土碱性和土壤含盐量,提高土壤肥力和营养物质保持能力,改善根际土壤细菌群落结构,促进土壤中有益菌的活动,并进一步促进大豆生长,对于盐碱土改良具有明显作用。

组蛋白脱乙酰酶1基因抑制人脐静脉内皮细胞焦亡并减轻动脉粥样硬化及炎性反应

背景:细胞焦亡作为炎症细胞死亡的一种独特形式,在动脉粥样硬化病变的不稳定性中发挥重要作用。目的:探究重组B细胞淋巴瘤2相关蛋白A1(B-cell lymphoma 2-related protein A1,BCL2A1)在动脉粥样硬化中的作用机制。方法:①使用200μg/mL氧化低密度脂蛋白处理人脐静脉内皮细胞24 h以诱导内皮损伤。随后,分别使用50 nmol/L BCL2A1干扰质粒(sh-BCL2A1)和1.5μg/mL组蛋白脱乙酰酶1基因(histone deacetylase 1 gene,HDAC1)过表达载体(pcDNA-HDAC1)转染人脐静脉内皮细胞,或同时转染pcDNA-HDAC1和BCL2A1过表达载体(pcDNA-BCL2A1)。转染后培养48 h检测BCL2A1和HDAC1的表达水平、细胞活力、细胞焦亡水平以及BCL2A1乙酰化水平。②通过高脂喂养APOE-/-小鼠构建动脉粥样硬化小鼠模型进行体内验证。将500μL BCL2A1和HDAC1慢病毒过表达载体分别或同时尾静脉注射到小鼠体内,检测BCL2A1和HDAC1的表达水平以及小鼠动脉组织损伤情况。结果与结论:氧化低密度脂蛋白诱导的人脐静脉内皮细胞中BCL2A1上调,干扰BCL2A1可改善细胞活力并抑制细胞焦亡和炎症反应。此外,氧化低密度脂蛋白诱导的人脐静脉内皮细胞中HDAC1下调,通过促进BCL2A1去乙酰化提高了细胞活力及抑制了细胞焦亡和炎症反应。体内实验表明,BCL2A1在高脂喂养的小鼠动脉组织中高表达,而HDAC1低表达。此外,HDAC1通过促进BCL2A1去乙酰化减轻了高脂喂养诱导的ApoE-/-小鼠动脉组织病变。结果表明,HDAC1可能通过BCL2A1去乙酰化来抑制人脐静脉内皮细胞焦亡进而减轻动脉粥样硬化和炎症反应。

重庆地区马唐种群对2种乙酰辅酶A羧化酶抑制剂类除草剂的敏感性

为高效科学防除重庆地区马唐Digitaria sanguinalis(L.)Scop.,采用整株生物测定法,测定了不同马唐种群对2种乙酰辅酶A羧化酶抑制剂类除草剂的ED_(50)和相对抗性倍数(RI)。结果表明,不同马唐种群对噁唑酰草胺、烯草酮均产生了不同程度的抗性(相对敏感种群除外);DJSP02对噁唑酰草胺、烯草酮分别表现为中抗(RI=8.78)和低抗(RI=2.10),其ED_(50)分别为377.31 g/hm^(2)和37.97 g/hm^(2);DJSP03对噁唑酰草胺、烯草酮分别表现为低抗(RI=3.18)和中抗(RI=7.56),其ED_(50)分别为136.84 g/hm^(2)和136.93 g/hm^(2),均已产生了正交互抗性。因此,在对重庆地区抗性马唐种群进行防除时宜与其他类型的除草剂混用或交替使用。

冠菌素诱导橡胶树次生乳管分化的形成层细胞CUT&Tag文库构建和初步分析

CUT&Tag技术是一种研究蛋白质-DNA互作的新方法,使用超高活性的新型pG-Tn5转座酶,在抗体引导下精准靶向切割目的蛋白附近的DNA序列,从而进行cDNA建库和测序分析。此技术在人类和动物研究中应用广泛,由于植物细胞结构特殊,该技术在植物研究中应用较少。在前期研究中,我们发现组蛋白乙酰化修饰参与茉莉酸诱导橡胶树次生乳管分化的调控,但其分子机制尚未阐明。本研究利用冠菌素(COR)诱导橡胶树萌条维管形成层分化次生乳管的实验系统,通过酶解法获取高质量的形成层区细胞原生质体,使用组蛋白H3乙酰化修饰抗体对次生乳管分化过程中发生组蛋白乙酰化修饰的区域进行原位识别,采用CUT&Tag技术成功构建COR处理橡胶树树皮形成层细胞的cDNA文库。对构建cDNA文库进行质检和测序分析,发现文库质量较好,并通过差异基因的GO和KEGG富集分析,发现生长素、类黄酮代谢和蛋白质泛素化等相关基因得到富集。本研究结果为使用CUT&Tag技术构建植物组织的cDNA文库提供操作方法,为解析组蛋白乙酰化修饰调控橡胶树次生乳管分化的分子机制提供理论基础。

N-乙酰半胱氨酸对冻融人卵巢组织的保护作用

目的以首都医科大学附属北京妇产医院生育力保护中心现有冻存复苏方案为基础,以雌性去势裸鼠为模型,通过人冻融卵巢组织异种移植探讨抗氧化剂N-乙酰半胱氨酸(N-Acetyl-L-Cysteine,NAC)对人卵巢组织的保护作用。方法将4例患者的卵巢组织按照原有冻融方案和改良方案(加入NAC)进行冻融,所有患者取材后留取新鲜卵巢组织进行钙黄绿素AM(Calcein acetoxymethyl ester,Calcein-AM)和苏木精-伊红(hematoxylin-eosin staining,HE)染色评估卵泡活性并计数。将36只雌性去势裸鼠随机分为4组,将复苏后的卵巢组织移植于双侧裸鼠肾被膜下,按照移植卵巢组织的冻融方案分为原有冻融方案组(control group),改良方案组(NAC group),卵巢去势组(ovariectomy group)和正常对照组(normal group,不进行手术)。分别在移植第3天、第7天、第21天处死裸鼠,取血清及卵巢组织移植物。采用酶联免疫吸附试验(enzyme-linked immunosorbent assay,ELISA)法检测血清雌二醇(estradiol,E2)、卵泡刺激素(follicle stimulating hormone,FSH)和抗苗勒管激素(anti-mullerian hormone,AMH)水平,取卵巢组织移植物1片用于HE染色观察卵泡发育情况,1片用于总抗氧化能力(total antioxidant capability,TAC)的检测。结果移植后各时间点两移植组卵泡发育分级差异无统计学意义(P>0.05)。NAC组总抗氧化能力显著高于control组(P<0.05),与新鲜卵巢组织相比差异无统计学意义(P>0.05)。移植第3天control组裸鼠血清中E2水平显著高于卵巢去势组(P<0.05),余各时间点两移植组与卵巢去势组差异无统计学意义(P>0.05)。移植后第3天和第21天两移植组裸鼠血清中FSH水平低于卵巢去势组(P<0.05),与正常对照组差异无统计学意义(P>0.05)。移植后第3天control组AMH显著高于卵巢去势组(P<0.05),与其余各组差异无统计学意义(P>0.05),移植第7天两移植组AMH水平下降,显著低于正常对照组(P<0.05),移植第21天两移植组AMH水平均显著高于卵巢去势组(P<0.05),与正常对照组差异无统计学意义(P>0.05)。结论原有冻存方案及改良冻存方案均能有效恢复卵巢组织的内分泌功能。与原有冻存方案相比,NAC改良方案能够提高移植卵巢组织的抗氧化能力,并减少移植初期原始卵泡的激活,保存更多的原始卵泡数量。

板蓝根多糖结构修饰及抗氧化、抗炎活性研究

目的:以板蓝根为原料,优化板蓝根多糖乙酸酐法修饰工艺,制得乙酰化板蓝根多糖,并研究其修饰前后体外抗氧化和抗炎活性。方法:采用乙酸酐法修饰制备乙酰化板蓝根多糖,以乙酰基取代度为评价指标,结合单因素和响应面方法对其乙酰化修饰工艺条件进行优化,采用体外化学模型法评估多糖对DPPH、ABTS^(+)、羟基自由基的清除能力,并通过细胞活力实验检测其抗炎能力。结果:通过红外光谱分析结果,显示乙酰化板蓝根多糖修饰成功,并未改变多糖基本结构骨架。其最佳工艺条件为反应温度39℃,反应时间5.6 h,料液比1:19 g·mL^(-1),取代度可达到0.3889。在抗氧化实验中发现,板蓝根多糖乙酰化修饰前后对DPPH自由基、ABTS^(+)自由基和羟基自由基均具有较好的清除能力,并呈现出剂量依赖关系,其中乙酰化板蓝根多糖抗氧化活性更强,同时可以有效降低炎症细胞的活力,显示出较显著的抗炎活性。结论:板蓝根多糖经乙酰化修饰后,可显著提高体外抗氧化和抗炎活性,为板蓝根多糖的进一步开发与利用提供理论依据和数据参考。

Dynactin调控α-微管蛋白乙酰化和微管修饰的机制研究

目的探讨动力蛋白激活蛋白Dynactin对α-微管蛋白乙酰化水平和微管修饰的调控作用。方法利用蛋白印迹方法检测Dynactin亚基p150^(Glued)N端缺失(KO)和对照(Ctrl)小鼠原代皮质神经元和原代成纤维细胞中α-微管蛋白乙酰化水平和总蛋白水平。利用免疫荧光染色方法观察Ctrl和KO原代成纤维细胞中微管乙酰化百分比的变化情况。结果p150^(Glued)N端缺失不影响原代皮质神经元中Dynactin及乙酰化α-微管蛋白水平。与Ctrl小鼠原代成纤维细胞比,KO原代成纤维细胞中Dynactin亚基蛋白水平降低,且乙酰化α-微管蛋白水平明显升高。此外在KO原代成纤维细胞中也观察到微管乙酰化的百分比显著增多。结论Dynactin功能缺失可显著上调乙酰化α-微管蛋白水平,增加细胞微管乙酰化的百分比。

血清Lp-PLA2对肺炎相关急性呼吸窘迫综合征诊断分级和预后评估的价值

目的探讨脂蛋白相关磷脂酶A2(Lp-PLA2)对肺炎相关急性呼吸窘迫综合征(p-ARDS)诊断分级和预后评估的价值。方法采用前瞻性观察研究设计,将2022年1月至2023年8月天津医院ICU连续收治的57例p-ARDS患者作为研究对象,选择同期普通呼吸病房收治的26例肺炎患者和10例体检健康者作为对照。收集3组人群的血清样本,其中p-ARDS组和肺炎组样本于患者入院24 h内获得,采用Luminex?多重检测试剂盒检测各组血清Lp-PLA2、IL-6和IL-8的表达水平。收集p-ARDS组和肺炎组患者基线资料以及入院血常规、生化指标、C反应蛋白(CRP)、降钙素原(PCT)和D-二聚体(D-dimer)等实验室资料。按照临床诊断、p-ARDS严重程度和28 d临床结局进行分组比较,通过绘制ROC曲线、Spearman相关分析和Logistic回归分析等方法评估Lp-PLA2对p-ARDS的诊断及预后价值。结果p-ARDS组血清Lp-PLA2水平显著高于肺炎组[(233.67±83.49)ng/mL vs(150.86±39.48)ng/mL,P<0.05],而肺炎组显著高于健康人对照组[(150.86±39.48)ng/mL vs(92.07±12.89)ng/mL,P<0.05]。ROC曲线分析结果显示,血清Lp-PLA2对p-ARDS和肺炎的鉴别能力优于IL-6、IL-8、CRP和PCT等指标,其ROC曲线下面积(AUCROC)为0.781(95%CI:0.685~0.878),Lp-PLA2与D-dimer联合的诊断价值更高(AUCROC=0.897,95%CI:0.832~0.963)。亚组分析发现,随着肺损伤加重,血清Lp-PLA2水平递增,Lp-PLA2与p-ARDS患者PaO2/FiO2比值呈负相关(r=-0.549),但与入院SOFA评分呈正相关(r=0.412)。与p-ARDS生存组相比,死亡组血清Lp-PLA2水平更高[(314.5±43.1)ng/mL vs(174.9±48.9)ng/mL,P<0.001];Logistic回归分析显示校正SOFA评分后,Lp-PLA2与28 d死亡风险独立相关(OR=1.099,95%CI:1.026~1.178,P=0.007),校正IL-8或PaO2/FiO2后可得到类似结果。结论血清Lp-PLA2可作为辅助p-ARDS诊断分级和预后评估的生物学标志物。

基于气相色谱-质谱法检测禾谷镰孢菌丝胞内外的脱氧雪腐镰刀菌烯醇和15-乙酰基脱氧雪腐镰刀菌烯醇

禾谷镰孢(Fusarium graminearum)是引起小麦赤霉病的主要病原真菌,不仅会造成严重的作物减产,还会产生脱氧雪腐镰刀菌烯醇(DON)等真菌毒素污染谷物,威胁人畜健康。为探究禾谷镰孢产毒菌丝胞内外的毒素含量,本文建立了气相色谱-质谱联用法同时检测DON和15-乙酰基脱氧雪腐镰刀菌烯醇(15-ADON)。通过质谱特征扫描,DON和15-ADON均获得了较高离子化效应的离子。在单离子检测(SIM)模式下,利用m/z295、235和193离子定性分析DON,m/z 392、235和193离子定性分析15-ADON。选择其中响应强度最高的m/z 235离子定量分析DON,m/z 193离子定量分析15-ADON。利用该方法检测禾谷镰孢野生型PH-1和DON合成缺陷突变体tri5胞内外的DON和15-ADON含量,PH-1胞内的DON和15-ADON含量分别为(149.13±9.15)μg/g和(1833.31±185.33)μg/g,胞外含量分别为(5910.35±468.23)μg/g和(45222.12±2726.81)μg/g;tri5突变体的胞内外均未检测到DON和15-ADON。该方法可用于菌丝胞内外DON和15-ADON的同时分析。

高效液相色谱法对N-乙酰-L-酪氨酸生产工艺的中间物监控分析

为了探讨在生产N-乙酰-L-酪氨酸时,中间物料对产品质量的影响,试验研究了在采用乙酸酐乙酰化生产N-乙酰-L-酪氨酸过程中,对中间产生物料L-酪氨酸、N-乙酰-L-酪氨酸和N,O-二乙酰-L-酪氨酸的中控分析并测定它们的含量。具体方法是:把样品用超纯水稀释100倍后,在色谱柱(C_(18),150mm×4.6mm,5μm)上进行分离,以10mmol·L^(-1)磷酸盐(pH3.0)-甲醇(60:40,V/V)为流动相进行等度洗脱,在波长270nm处进行紫外检测。结果表明:L-酪氨酸、N-乙酰-L-酪氨酸、N,0-二乙酰-L-酪氨酸的质量浓度分别在10~1000mg·L^(-1),10~1000mg·L^(-1),50~1000mg·L^(-1)内与对应的峰面积呈现线性关系,检出限(3S/N)分别为1.1mg L^(-1),1.2mg·L^(-1),14.0mg·L^(-1);对实际样品进行加标回收试验,回收率分别在98.4%~105.0%,98.5%~100.8%,98.9%~100.5%之间,测定值的相对标准偏差RSD(n=6)分别为1.8%、0.7%和0.9%,均小于2.0%。说明所建立的高效液相方法切实可行,重现好,精密度高,可用于乙酰酪氨酸生产工艺中间物的监控分析。

填精健脾逐水法联合足量激素改善原发性肾病综合征肾功能早期损害临床研究

目的:观察填精健脾逐水法联合足量激素改善原发性肾病综合征(PNS)肾功能早期损害治疗效果。方法:按随机数字表法分为观察组和对照组,各60例,对照组采用醋酸泼尼松片治疗,观察组在对照组的基础上加用填精健脾逐水法,共观察90 d。比较两组患者治疗后临床疗效、半胱氨酸蛋白酶抑制剂C(CysC)、内生肌酐清除率(CCr)、尿N乙酰β氨基葡苷酶(NAG)和血β2微球蛋白(β2-M)的变化情况。结果:观察组总有效率89.2%,高于对照组的82.7%(P<0.05)。治疗后两组CysC、CCr、尿NAG和血β2-M水平均下降(P<0.05)。结论:填精健脾逐水法联合足量激素改善PNS患者肾功能早期损害疗效更佳,具有增强机体的免疫功能,抑制炎症细胞,并能抑制血小板凝集、抗凝,改善肾血流量,从而改善肾功能等作用。

创伤性老年患者急性肾损伤的预测价值分析

目的探讨几丁质酶3样蛋白1(CHI3L1)、中性粒细胞明胶酶相关脂质转载蛋白(NGAL)及N-乙酰-β-D-氨基葡萄糖苷酶(NAG)对老年创伤患者急性肾损伤(AKI)早期诊断的预测价值。方法老年创伤患者120例,在入科时收集血、尿标本,检测血清和尿CHI3L1、血清和尿NGAL、尿NAG浓度。每6 h记录尿量。入科同时检测血肌酐。采用logistic回归及ROC曲线分析CHI3L1、NGAL、NAG对老年AKI的预测作用。结果多因素logistic回归分析显示血清CHI3L1(SCHI3L1)与血清NGAL(SNGAL)是AKI发生的高危因素。ROC曲线显示预测老年创伤患者AKI的发生,SNGAL的AUC为0.819,SCHI3L1的AUC为0.729,SNGAL联合SCHI3L1的AUC为0.834。结论SCHI3L1与SNGAL是老年创伤患者AKI发生的高危因素,两者均可以预测其AKI的发生,以SNGAL的预测作用更明显,联合指标能提高预测准确率。