痹肿消汤对实验性关节炎大鼠滑膜annexinl和aldolase A表达影响的同步研究

目的通过中药复方痹肿消汤对实验性关节炎大鼠滑膜annexinl、aldolase A表达影响的同步研究,探讨痹肿消汤治疗类风湿关节炎(rheumatoid arthritis．RA)的作用机制。方法采用皮下注射牛Ⅱ型胶原与完全福氏佐剂诱导SD大鼠实验性关节炎(collagen-induced arthritis,CIA)模型,并设立正常对照组。采用免疫印迹法(Western blot)同步检测正常组、模型组及痹肿消汤组大鼠在不同时间点滑膜annexinl、aldolase A的表达,运用ImageTool 3．0灰度扫描软件对结果进行半定量分析。结果造模25d后,模型组滑膜annexm 1表达低于正常组(P＜0．05),aldolase A表达高于正常组(P＜0．05)。随着免疫时间的延长,模型组滑膜annexin 1表达呈水平递减趋势(P＜0．05),aldolase A表达则逐渐递增(P＜0．05)。痹肿消汤治疗后,annexin 1表达在各时间点明显均高于模型组(P＜0．05),表达呈递增趋势(P＜0．05),aldolase A表达则明显低于同时间模型组(P＜0．05),在25、35和45d水平,表达呈递减趋势(P＜0．05)。BZXD能上调CIA大鼠滑膜annexin 1表达、下调aldolase A表达。结论在CIA病理过程中,随着关节炎症状加重,annexin 1表达下调,aldolase A表达上调。提示anncxin 1、aldolase A与RA滑膜病变(关节炎症、骨质侵蚀)密切相关；BZXD上调CIA大鼠滑膜annexin 1表达、下调aldolase A表达,这可能是其阻抑RA关节炎症、骨质侵蚀的重要机制之一。

Prion Protein Binds to Aldolase A Produced by Bovine Intestinal M Cells

Microfold (M) cells are a kind of intestinal epithelial cell in the follicle-associated epithelium (FAE) of Peyer’s patches. They can transport antigens and microorganisms to lymphoid tissues. Bovine spongiform encephalopathy (BSE) is a fatal neurodegenerative disorder in cattle. It is linked to variant Creutzfeldt-Jakob disease in humans. Although it is thought that M cells transport the BSE agent, the exact mechanism by which it crosses the intestinal barrier is not clear. We have bovine intestinal epithelial cell line (BIE cells), which can differentiate into the M cell type in vitro after stimulation, and which is able to transport the BSE agent. We show here that M cells are able to incorporate large numbers of PrP coated magnetic particles into intracellular vesicles, which we collected. The results of 2-DE show a specific protein associated with the PrP-coated particles, compared with non-coated particles. This protein was identified as aldolase A, a glycolytic pathway enzyme, using LC-MS/MS analysis. Aldolase A was synthesized and secreted by BIE cells, and increased during M cell differentiation. In the villi of the bovine intestine, aldolase A was detected on the surface of the epithelium and in the mucus droplet of goblet cells. In the FAE of bovine jejunal and ileal Peyer’s patches, aldolase A was localized on the surface and the apical part of the M cells. The binding of rbPrP to aldolase A was clearly detected and inhibited by pre-treatment of anti-aldolase A antibody. Aldolase A was co-stained with incorporated PrPSc in M-BIE cells. These results suggest that bovine M cells and goblet cells synthesize aldolase A, and that aldolase A may have the ability to bind PrP and associate with PrP in cellular vesicles. Therefore, aldolase A-positive M cells may play a key role in the invasion of BSE into the body.

Spinach aldolase interactions with rabbit, chicken, and fish muscle phosphofructokinase-1

Previous studies showed that rabbit muscle phosphofructokinase-1 (PFK-1) activity losses due to dilution, due to inhibition by ascorbate, and due to some lithium salts were prevented by rabbit muscle aldolase. Chicken PFK-1 and fish PFK-1 interacted with ascorbate and were inhibited, consistent with a previously proposed function that ascorbate facilitates glycogen in resting muscle by inhibiting glycolysis. This report shows that a plant enzyme, spinach aldolase, has the same ability to prevent rabbit muscle PFK-1 activity loses as rabbit muscle aldolase and in some instances it was a better protector from activity losses than rabbit aldolase. Spinach aldolase also protected chicken and fish PFK-1s from inhibitions by ascorbate and from activity losses due to dilution. Prevention of losses PFK-1 activities from animal species by a plant protein, spinach aldolase, suggests an evolutionary conservative relationship between PFK-1s and aldolases.

A developmental biological study of aldolase gene expression in Xenopus laevis

We cloned cDNAs for Xenopus aldolases A, B and C. These three aldolase genes are localized on different chromosomes as a single copy gene. In the adult, the aldolase A gene is expressed extensively in muscle tissues, whereas the aldolase B gene is expressed strongly in kidney, liver, stomach and intestine, while the aldolase C gene is expressed in brain, heart and ovary. In oocytes aldolase A and C mRNAs, but not aldolase B mRNA, are extensively transcribed. Thus, aldolase A and C mRNAs, but not B mRNA, occur abundantly in eggs as maternal mRNAs, and strong expression of aldolase B mRNA is seen only after the late neurula stage. We conclude that aldolase A and C mRNAs are major aldolase mRNAs in early stages of Xenopus embryogenesis which proceeds utilizing yolk as the only energy source, aldolase B mRNA, on the other hand, is expressed only later in development in tissues which are required for dietary fructose metabolism.We also isolated the Xenopus aldolase C genomic gene (ca. 12 kb) and found that its promoter (ca. 2 kb)contains regions necessary for tissue-specific expression and also a GC rich region which is essential for basal transcriptional activity.

兄弟两人因糖原累积病Ⅻ在新生儿期发病的病例分析

糖原累积病(GSD)是一组常染色体隐性遗传的糖代谢障碍性疾病,在糖原的合成或分解途径中发生先天性酶缺乏而引起代谢障碍,导致糖原在脏器组织上累积。根据酶缺乏的种类,GSD分为十几个类型,其中GSDⅫ是一种超罕见的GSD分型。本文报道年龄相差5岁的兄弟两人以新生儿重度窒息、肌无力、心肌损害、贫血、智力低下为主要临床表现,在新生儿期发病的GSDⅫ纯合型病例。基因检测结果显示两患儿ALDOA基因存在核苷酸与氨基酸改变:c.619G>A,p.E207K,为纯合型,患儿父母的基因为杂合型。本文通过对GSDⅫ型的临床特点、诊断及治疗进行总结,为出生后即出现重度窒息、肌无力、贫血及多脏器损害新生儿的病因探寻及治疗提供参考。

ADP-dependent glucokinase controls metabolic fitness in prostate cancer progression

Background Cell metabolism plays a pivotal role in tumor progression,and targeting cancer metabolism might effectively kill cancer cells.We aimed to investigate the role of hexokinases in prostate cancer(PCa)and identify a crucial target for PCa treatment.Methods The Cancer Genome Atlas(TCGA)database,online tools and clinical samples were used to assess the expression and prognostic role of ADP-dependent glucokinase(ADPGK)in PCa.The effect of ADPGK expression on PCa cell malignant phenotypes was validated in vitro and in vivo.Quantitative proteomics,metabolomics,and extracellular acidification rate(ECAR)and oxygen consumption rate(OCR)tests were performed to evaluate the impact of ADPGK on PCa metabolism.The underlying mechanisms were explored through ADPGK overexpression and knockdown,co-immunoprecipitation(Co-IP),ECAR analysis and cell counting kit-8(CCK-8)assays.Results ADPGK was the only glucokinase that was both upregulated and predicted worse overall survival(OS)in prostate adenocarcinoma(PRAD).Clinical sample analysis demonstrated that ADPGK was markedly upregulated in PCa tissues vs.non-PCa tissues.High ADPGK expression indicates worse survival outcomes,and ADPGK serves as an independent factor of biochemical recurrence.In vitro and in vivo experiments showed that ADPGK overexpression promoted PCa cell proliferation and migration,and ADPGK inhibition suppressed malignant phenotypes.Metabolomics,proteomics,and ECAR and OCR tests revealed that ADPGK significantly accelerated glycolysis in PCa.Mechanistically,ADPGK binds aldolase C(ALDOC)to promote glycolysis via AMP-activated protein kinase(AMPK)phosphorylation.ALDOC was positively correlated with ADPGK,and high ALDOC expression was associated with worse survival outcomes in PCa.Conclusions In summary,ADPGK is a driving factor in PCa progression,and its high expression contributes to a poor prognosis in PCa patients.ADPGK accelerates PCa glycolysis and progression by activating ALDOC-AMPK signaling,suggesting that ADPGK might be an effective target and marker for PCa treatment and prognosis evaluation.

G-四链体在糖酵解相关基因中的分布及调控

目的探讨G-四链体(G4)在糖酵解相关基因中的分布及调控。方法选取200个糖酵解相关基因转录起始位点上游1500 bp至5′非翻译区的序列进行生物信息学分析,初步确定含有潜在G-四链体形成序列(PQS)的相关基因;圆二色谱法和非变性聚丙烯酰胺凝胶电泳法检测G4形成;外切酶Ⅰ(ExoⅠ)水解实验在0,0.5,2,8,16和32 min检测G4稳定性;构建将相关基因的特定片段插入到荧光素酶表达序列之前的报告基因质粒,双荧光素酶报告基因系统检测荧光素酶的表达水平进而判断G4对启动子活性的影响;实时荧光定量PCR检测荧光素酶的mRNA水平进一步验证G4的转录调控作用。结果①生物信息学分析表明,200个糖酵解相关基因中有12个基因含有PQS,进一步结合PQS长度及结构分析,醛缩酶A(ALDOA)和磷酸变位酶2(PGAM2)的PQS理论上可形成稳定G4。②ALDOA和PGAM2均在260 nm处有最大正吸收峰,在240 nm处有最大负吸收峰,符合平行结构G4的特征构象,同时二者的PQS可形成G4。③ExoⅠ消化后,ALDOA和PGAM2无明显水解,证明G4具有稳定性,同时二者的PQS突变后均可逐渐被水解。④ALDOA突变后荧光素酶的表达水平和mRNA水平显著升高(P<0.01);PGAM2突变后荧光素酶的表达水平和mRNA水平显著降低(P<0.01)。结论糖酵解相关基因的序列中存在大量PQS,其中ALDOA和PGAM2的PQS可形成稳定G4,并具有转录调控作用。

草鱼醛缩酶B基因部分序列的SNP多态性及其与生长性状的关联分析

通过佛山市白金水产良种选育场提供的草鱼EST库的醛缩酶B基因重叠群的2个Contig扩增该基因的序列片段,采用直接测序法,经过序列比对,共筛到C+687G、C+1042A和A117C等3个颠换SNPs位点。C+687G位于醛缩酶B基因外显子6的63 bp处,为同义突变;C+1042A位于外显子8的43 bp处,为错义突变;A117C位于内含子7的117 bp处。采用Snapshot方法对同一群体的296尾草鱼的这3个SNPs位点进行检测和分型,并统计基因型频率。3个SNPs位点中AA的频率分别为42.9%、32.8%、32.8%;AB的频率分别为42.9%、45.9%、45.6%;BB的频率分别为14.2%、21.3%、21.6%。利用一般线性模型分析3个SNPs位点与草鱼体质量、体长等重要生长性状的关系,关联分析结果显示,C+687G位点不同基因型只在体长/尾柄长比值上存在显著差异(P<0.05),和体质量等重要生长性状不相关。A117C和C+1042A两个位点都在体质量等4个生长性状上存在显著差异(P<0.05)。将3个SNPs位点不同基因型两两位点组成3个组合的双倍型(都去掉了频率小于3%的组合),结果显示,C+687G和A117C以及C+687G和C+1042A的2个组合分别组成的7种双倍型在体质量等5个生长性状上都存在显著差异(P<0.05);A117C和C+1042A组成的3种双倍型在体质量、眼间距等2个生长性状上都存在显著差异(P<0.05)。研究认为,可以考虑将草鱼醛缩酶B基因作为生长相关的候选基因,用于草鱼的分子辅助育种。

蒿甲醚对日本血吸虫磷酸葡萄糖变位酶、醛缩酶、磷酸甘油酸变位酶和烯醇化酶的影响

[目的 ]观察蒿甲醚 (Art)对小鼠体内日本血吸虫磷酸葡萄糖变位酶 (GPM )、醛缩酶 (ALD)、磷酸甘油酸变位酶 (PGM)和烯醇化酶 (ENO)的影响。 [方法 ]小鼠感染血吸虫尾蚴 4～ 5wk后 ,1次灌服Art10 0mg/kg或 30 0mg/kg ,并于 2 4～ 48h后剖杀 ,收集日本血吸虫雌虫和雄虫 ,按NADPH的生成量或NADH的耗用量测定虫体的上述 4种酶活力。 [结果 ]经Art 10 0mg/kg作用 2 4h后 ,雌虫的GPM、ALD、PGM和ENO活力分别较对照组下降 15 %、 19%、 5 0 %和 46 % ,其间差别均具有显著意义 ,而雄虫仅PGM和ENO活力分别下降 2 2 %和 32 % ;48h后 ,雄虫的GPM和ALD活力亦分别下降 2 1%和 18% ,雌虫的GPM、ALD、PGM和ENO及雄虫的PGM和ENO活力则进一步下降。经Art 30 0mg/kg作用后 2 4～ 48h ,雌虫和雄虫的上述 4种酶活力均明显下降 ,且呈一定的时间效应关系。 [结论 ]Art对日本血吸虫尤其是雌虫的上述 4种酶有抑制作用。

念珠菌优势抗体检测方法的建立及临床诊断价值评估

目的侵袭性念珠菌病(invasive candidiasis,IC)是免疫功能损伤或低下患者常见的感染和死亡原因,近年来检测IC患者血清中特异性抗体的血清学诊断方法成为研究热点。本文旨在建立检测念珠菌烯醇化酶(Enolase,Eno)、果糖二磷酸醛羧酶(fructose-bisphosphate aldolase,Fba1)特异性抗体的ELISA方法,评估其在IC早期诊断中的应用价值。方法利用基因重组技术获得的Eno、Fba1重组蛋白作为包被抗原,建立测定人血清相应抗体的ELISA,并对方法的敏感性、特异性进行考查。结果建立了检测IC患者血清抗Eno、抗Fba1抗体的ELISA,cut-off值分别为吸光度(A)值0.370和0.610。ELISA结果显示,IC患者血清中的抗Eno、抗Fba1抗体水平明显高于健康对照和非IC患者对照(P<0.001)。抗Eno和抗Fba1对诊断IC的敏感性和特异性分别为72.3%(73/101)和98%(196/200),87.1%(88/101)和96%(192/200),联合检测可提高敏感性至91.0%。且与细菌感染及其他真菌感染患者(如曲霉病)无交叉反应。IC患者中40.6%(41/101)可以在血培养阳性前检测到抗Eno、49.5%(50/101)可以在血培养阳性前检测到抗Fba1。结论建立了检测抗Eno、抗Fba1抗体的ELISA法,检测念珠菌菌丝相分泌蛋白IgG抗体特异性和灵敏度良好,在念珠菌感染诊断中具有潜在临床应用价值。

花生果糖-1,6-二磷酸醛缩酶基因AhFBA1的克隆与表达

以花生品种花育33为试材,根据cDNA文库中已知的果糖-1,6-二磷酸醛缩酶(fructose-1,6-bisphosphate aldolase,FBA)基因全长序列设计引物,通过RT-PCR克隆到该基因,命名为AhFBA1。AhFBA1全长为1489 bp,开放阅读框为1200 bp,编码400个氨基酸。预测该基因编码的蛋白含有Glycolytic保守结构域,可能定位于叶绿体中。蛋白序列比对和进化树分析表明,花生与大豆(Glycine max)、苜蓿(Medicago truncatula)、鹰嘴豆(Cicer arietinum)和菜豆(Phaseolus vulgaris)等豆科植物中的FBA序列相似性最高,亲缘关系最近。荧光定量PCR结果显示,在高盐和干旱胁迫下,AhFBA1在花生叶和根中的表达均受明显诱导,说明该基因可能参与花生对高盐和干旱胁迫的适应性调控;AhFBA1在花生根和叶中均受ABA的明显诱导,说明该基因对花生非生物胁迫的调控可能是依赖ABA的。

筋脉通治疗糖尿病周围神经病变的临床观察

目的 :观察中药筋脉通治疗糖尿病周围神经病变 (diabeticperipheralneuropathy ,DN)的临床疗效并探讨其作用机理。方法 :检测 2 8名健康人和 66例DN患者的红细胞醛糖还原酶活性 (redbloodcellaldolsereductaseactivity ,RBC -AR)和红细胞山梨醇 (redbloodcellsorbitol,RBC -S)等指标的变化。并随机将 66例DN患者分为筋脉通治疗组和金匮肾气治疗组 (各 33例 )观察其对RBC -AR活性、RBC -S浓度、神经传导速度等指标的影响。结果 :DN患者RBC -AR活性和RBC -S浓度明显高于健康人。用筋脉通治疗后RBC -AR活性和RBC -S浓度明显下降 ,神经传导速度增快 (P <0 0 5 ,P <0 0 1) ,在某些神经传导速度及波幅的改善方面优于金匮肾气治疗组。结论 :筋脉通能够减轻DN患者临床症状 ,改善病变神经传导速度 ,降低醛糖还原酶活性 ,减轻红细胞山梨醇的蓄积 ,对防治糖尿病神经病变有较好的疗效。

GST沉降技术验证弓形虫醛缩酶与肌动蛋白的相互作用

目的通过GST沉降技术(GST pull-down)验证刚地弓形虫醛缩酶(aldolase)与肌动蛋白(actin)的相互作用。方法 PCR扩增弓形虫cDNA中aldolase和actin基因,分别亚克隆至原核表达质粒pGEX-4T-1和pET30a,转化至大肠埃希菌BL21(DE3),1 mmol/L异丙基-β-D-硫代半乳糖苷(IPTG)诱导表达,亲和层析法纯化表达产物。采用腹部皮内多点注射免疫SD大鼠15只,首次免疫Actin-His6蛋白量为200μg/只,第2次起免疫蛋白量为100μg/只,共免疫4次,每次间隔7 d,末次免疫后5 d收集心脏血,制备Actin-His6抗血清。以纯化的GST-Aldolase蛋白作为探针蛋白与Actin-His6蛋白液进行GST沉降实验,实验产物进行十二烷基硫酸钠-聚丙烯酰胺凝胶电泳(SDS-PAGE)和蛋白质印迹(Western blotting)分析。结果获得了弓形虫aldolase和actin基因序列,构建了相应的原核表达载体。表达并纯化了GST-Aldolase和Actin-His6蛋白。Actin-His6蛋白免疫SD大鼠后获得其抗血清,经抗体亲和纯化柱纯化,获得Actin-His6多克隆抗体。SDS-PAGE和Western blotting结果显示,GST沉降实验产物中的蛋白条带可被Aldolase-His6多克隆抗体和Actin-His6多克隆抗体识别。结论弓形虫醛缩酶与肌动蛋白存在相互作用。

油茶果糖-1,6-二磷酸醛缩酶基因(CoFBA4)的分子特征与表达分析

果糖-1，6-二磷酸醛缩酶（fructose-1，6-diphosphatealdolase，FBA，EC4．1．2．13），简称醛缩酶，是糖酵解代谢途径中第4步关键酶，催化果糖-1，6-二磷酸（Fru．1，6-BP）可逆地裂解为磷酸二羟丙酮（DHAP）和3-磷酸甘油醛（G．3-P）（Rutter，1964）。

白念珠菌果糖二磷酸醛缩酶重组蛋白的制备及鉴定

目的制备有免疫原性的白念珠菌果糖二磷酸醛缩酶(fructose-bisphosphate aldolase,Fba1)重组蛋白。方法以白念珠菌C1标准株基因组DNA为模板,用PCR法扩增Fba1 DNA序列,与克隆载体pMD18-T连接、测序,再与原核表达载体pET28a(+)连接,构建成重组表达质粒pET28a(+)/Fba1,转化大肠埃希菌BL21(DE3),IPTG诱导重组融合蛋白表达,亲和层析柱纯化重组蛋白。用抗His标签的单克隆抗体鉴定融合蛋白,并用确诊为侵袭性白念珠菌病(ICAI)、且抗白念珠菌烯醇化酶抗体阳性的患者血清进行抗原性鉴定。结果 Fba1 DNA序列与GenBank中的序列一致。在大肠埃希菌中获得白念珠菌Fab1重组蛋白的高效表达,表达产物以可溶性蛋白为主,最终蛋白质得率为7.6 mg/g湿菌。经免疫印迹鉴定,重组蛋白与抗His标签的单克隆抗体和确诊ICAI患者血清呈特异性反应,显示出良好的抗原反应性。结论成功制备了具有良好抗原反应性的重组蛋白,为建立特异性诊断ICAI的新方法打下基础。

刚地弓形虫醛缩酶蛋白的表达及其多克隆抗体的纯化

目的:体外制备弓形虫醛缩酶(aldolase)蛋白及其多克隆抗体。方法:以弓形虫cDNA链为模板,PCR扩增醛缩酶基因,构建aldolase/pET30a原核表达系统;IPTG诱导表达aldolase-His6蛋白;用纯化的蛋白加免疫佐剂免疫SD大鼠,收集抗血清,制备多克隆抗体,亲和层析纯化并分析抗体的效价。结果:构建了aldolase原核表达系统,表达并纯化了aldolase-His6蛋白;获得了抗该蛋白的大鼠源性抗血清,纯化后的多克隆抗体效价为1∶4000。结论:在体外制备并纯化了aldolase-His6蛋白及其多克隆抗体,为后续研究aldolase的功能奠定了基础。

1,6-二磷酸果糖醛缩酶对无水酒精注射治疗原发性肝癌中的观察

目的:探讨血清1,6-二磷酸果糖醛缩酶(FDP-ALD)测定对经皮肝穿无水酒精瘤内注射术(PEI)治疗原发性肝癌的疗效评价。方法:18例共24个肝癌肿瘤结节行PEI治疗,检测治疗后不同时点的血清FDP-ALD和甲胎蛋白(AFP)的变化并进行比较。结果:血清FDP-ALD活性在第1次PEI术后达最高值,随后呈波浪状下降,第8次回到术前水平,提示血清FDP-ALD活性变化可反映肝癌组织的坏死程度。血清AFP浓度治疗后也呈下降趋势,术前、术后比较差异有显著性(P<0.05)。结论:血清FDP-ALD活性测定可用于肝癌PEI的疗效评价,对AFP阴性的肝癌患者也有判断疗效的价值。

水稻胞质FBA基因在鱼腥藻7120中的表达及其对光合作用的调控

光合作用包括了一系列复杂的反应,其中碳固定反应是光合作用调控的核心环节。果糖-1,6-二磷酸醛缩酶(FBA)是Calvin循环中固定CO2后第一个催化三碳化合物转变为六碳化合物的酶,在光合作用中有着重要的作用。近年来,反义技术进一步地证明了FBA在加速碳固定反应方面有着非常大的潜力。本论文通过过表达技术来研究提高FBA活性是否能加速碳固定反应。将水稻胞质FBA嵌合基因转入鱼腥藻7120,通过相应的抗生素筛选及PCR鉴定后,确定得到了稳定遗传的转基因藻。对转基因藻和野生藻进行FBA活性及生理活性的测定后发现:转基因藻中FBA的活性比野生藻提高了31.2%;细胞生长速率比野生藻提高了24.4%;净光合与真实光合分别比野生藻提高了19.2%和20.6%。以上结果证明,在鱼腥藻体内特异的提高非调控酶FBA的水平,能在一定程度上提高转基因藻的光合活性,并且能够提高转基因藻的细胞增长效率。为进一步研究FBA在光合碳流量中的调控机理提供实验依据。

草鱼醛缩酶A3'-UTR突变与生长性状相关研究

采用直接测序法筛选草鱼(Ctenopharyngodon idella)醛缩酶A 3'-UTR突变位点,发现其转录终止密码子后58 bp处存在17 bp的插入片段。对草鱼养殖群体的插入突变进行分型,检测到该群体有AA、BB、AB三种基因型,等位基因B在群体中的频率为0.723,处于Hardy-weinberg平衡,多态信息含量是0.32,此突变在所测群体中属于中等遗传变异。利用一般线性模型分析基因型与草鱼群体生长性状(体重、体长、体高、体宽)的相关性,结果表明:醛缩酶A 3'-UTR突变与草鱼体宽和吻长2个生长性状达到显著相关(P<0.05),BB基因型个体比AA基因型个体的体重增加8.37%,在全长、体长、体高、尾柄长等生长性状也表现出比AA和AB基因型个体好。可将醛缩酶A 3'-UTR上的这段插入突变位点作为草鱼生长性状的候选分子标记用于草鱼的选育。

恶性胸水中醛缩酶A的水平及其对人肺腺癌细胞增殖、迁移与侵袭能力的影响

目的:比较肺癌患者伴恶性胸水(MPE)和结核性胸膜炎患者胸水(TBPE)中醛缩酶A(ALDOA)的表达水平及其与癌胚抗原(CEA)和乳酸脱氢酶(LDH)的相关性,探讨ALDOA对肺腺癌A549细胞增殖、迁移及侵袭的影响。方法:ELISA和化学发光法检测65例MPE和35例TBPE中ALDOA、CEA和LDH水平;以不同浓度的ALDOA作用于A549细胞,分别采用MTT法、划痕及体外侵袭实验研究ALDOA对A549细胞增殖、迁移和侵袭的影响。结果:MPE中ALDOA浓度[(46.8±21.4)μg/L]明显高于TBPE[(23.9±17.2)μg/L](P<0.01),其中腺癌[(71.7±32.1)μg/L]明显高于鳞癌[(21.3±14.6)μg/L](P<0.05);MPE中CEA和LDH水平[(82.2±56.6)μg/L和(755.8±382.5)U/L]也明显高于TBPE[(12.6±9.7)μg/L和(388.4±163.9)U/L](P<0.01)。2组患者胸水中ALDOA与CEA和LDH均呈正相关关系(P<0.01或P<0.05)。不同浓度ALDOA刺激A549细胞后,细胞增殖增强且迁移、侵袭加快,并呈浓度依赖性。结论:肺癌患者MPE中ALDOA表达水平明显高于TBPE中的水平,其中肺腺癌胸水ALDOA水平明显高于鳞癌;ALDOA与CEA和LDH水平高度正相关;ALDOA浓度依赖性地增强肺腺癌A549细胞增殖、迁移和侵袭。