Caveolin-1真核表达载体的构建及其Hepa1-6细胞中的表达

Caveolin-1在不同肿瘤中发挥作用不同,既发挥抑癌基因样作用又发挥癌基因样作用.旨在分析caveolin-1 在小鼠肝癌细胞系中的表达情况及建立稳定表达外源caveolin-1的Hepa1-6细胞.利用RT-PCR和Western-blot方法检测caveolin-1在小鼠肝癌H22、Hea-F和Hepa1-6细胞中的表达;通过分子克隆构建小鼠caveolin-1 cDNA真核表达栽体,利用脂质体转染等方法建立稳定表达外源caveolin-1的Hepa1-6细胞株;通过RT-PCR、Western-blot、免疫细胞化学等方法鉴定其稳定表达细胞株.结果显示,caveolin-1在Hepa1-6细胞中表达呈阴性,在H22和Hca-F 中高表达;成功获得小鼠caveolin-1 cDNA真核表达载体pEGFP-N2/Cav-1,筛选并鉴定出高表达外源caveolin-1的Hepa1-6稳定细胞株C1和C4,为进一步分析caveolin-1在肝癌中所发挥的作用奠定了一定的研究基础.     

人TIMP-1 cDNA克隆、真核表达载体构建及在COS-7细胞中的表达

根据 Gen Bank中 TIMP- 1基因的碱基序列 ,用 RT- PCR方法从人的正常肾组织中克隆出包含信号肽在内的 TIMP- 1全长 c DNA序列 .采用 T- A克隆的方法将之插入 p CRR2 .1中间载体 ,DNA测序证实该片段序列与文献报告的完全一致 .利用亚克隆的方法将 TIMP- 1 c DNA片段克隆到 pc DNA3载体上 ,构建出 pc DNA3/ TIMP- 1的真核表达载体 ,通过脂质体 DOTAP转染至 COS-7细胞 ,Northern印迹及原位杂交证实在 COS- 7细胞上获得人 TIMP- 1的高效表达 ,细胞增殖实验表明 TIMP- 1的高产表达可促进 COS- 7细胞的增殖 ,证实了所转染人 TIMP- 1的生物活性     

过氧化物酶蛋白1 真核表达载体构建及在Hela 细胞的表达与定位

目的:构建过氧化物酶蛋白1(PRDX 1)的真核表达载体,观察其在Hela细胞内表达及定位。方法:提取BALB/c小鼠肝脏组织总RNA,通过RT-PCR方法扩增得到小鼠PRDX 1编码序列,酶切后克隆至pcDNA3-myc载体。重组质粒通过PCR、酶切、测序证明构建正确后经脂质体转染Hela细胞,然后利用Western blot和荧光显微镜技术观察该融合蛋白在细胞内表达及定位。结果:经鉴定证明重组质粒构建正确;Western blot实验显示,该质粒能够在Hela细胞中特异表达;免疫荧光试验显示,蛋白产物分布在胞浆和胞核,证明该蛋白在细胞内高表达。结论:成功构建带有myc标签的PRDX 1真核表达载体,该质粒能够在哺乳细胞中特异表达并且外源性PRDX 1蛋白分布在Hela细胞胞浆胞核内,为深入研究PRDX 1蛋白在细胞内相关生物学研究奠定了基础。     

尘螨变应原Derf1真核表达载体的构建及转染CHO细胞

目的：构建尘螨变应原Der f1真核表达载体,转染真核细胞并进行蛋白表达。方法：根据Genebank中Der f1基因的核酸序列（AB034946）,设计引物,采用PCR法,从保存的JM109工程菌中扩增Der f1编码基因,克隆到真核表达质粒pcDNA3.1/myc-his A上,以脂质体法转染CHO细胞,经G418筛选,进行稳定表达细胞株的筛选和鉴定。结果：将目的基因Der f1成功连接到pcDNA3.1/myc-hisA-Derf1并转染CHO细胞,获得稳定表达的CHO细胞株。结论：成功构建了尘螨变应原Der f1真核表达载体,并转染CHO细胞表达蛋白质。     

AQP1真核表达载体的构建及其在FRT细胞的表达

目的：构建小鼠AQP1基因真核表达质粒并观察其在FRT细胞中的表达。方法：采用RT—PCR方法从小鼠肾脏组织的总cDNA中扩增出小鼠的AQP1基因,采用基因重组技术将AQP1的cDNA片段插入真核表达载体pCAGGS,构建小鼠AQP1的真核表达质粒,脂质体转染FRT细胞进行表达。结果：酶切和测序结果证实AQP1真核表达质粒构建成功,经脂质体转染FRT细胞后,免疫荧光检测证明AQPI蛋白在真核细胞中成功表达。结论：成功构建真核表达质粒pCAGGS—AQP1-myc,并在FRT细胞中得以表达。为进一步研究小鼠AQP1过表达时的功能及机制奠定了实验基础。     

hAng-1真核表达载体的构建及其在MSCs中的表达

目的:通过基因重组技术,构建人血管生成素-1(human angiopoietin 1,hAng-1)真核表达载体体系,并将其转染至大鼠的骨髓间充质干细胞(marrow mesenchymal stem cells,MSCs)内进行培养,进而验证hAng-1的表达.方法:将hAng-1编码序列(互补脱氧核糖核酸)通过酶切,插入至pcDNA3.1(+)质粒的多克隆位点,构建质粒pcDNA 3.1 (+)/hAng-1真核表达质粒;重组质粒经脂质体介导转染鼠MSCs.应用逆转录聚合酶联反应(RT-PCR)、蛋白免疫印迹法(Western blot)等方法检测hAng-1的表达情况.结果:pcDNA 3.1 (+)/hAng-1真核表达质粒转染鼠MSCs后,应用流式细胞仪检测,转染效率约为15％.同时应用RT-PCR能够检测出目的基因mRNA,Western blot能够检出hAng-1的蛋白表达.结论:本实验通过基因重组技术,构建的pcDNA3.1 (+)/hAng-1真核表达载体能够在转染的鼠MSCs中表达,且表达较为持续,为hAng-1基因应用于基因治疗的研究奠定了基础.     

肝癌中高表达基因fup1的克隆及其功能

原发性肝细胞癌是我国高发的恶性肿瘤之一,开展肝癌相关基因的研究具有重要的意义。从已经获得的在肝癌和正常肝对照中表达量有明显差异的EST片段入手,克隆了一个功能未报道的而可能与肝癌相关的基因。暂命名为fup1,该基因编码区全长1233bp,其产物的分子量约为46kD,等电点为5.48,可能是一个核蛋白。Northern 迹结果表明该基因在人类除心脏以外的多种正常组织中表达量很小,说明其分布具有一定的组织特异性,将整合有该基因的真核表达载体转染NIH3T3细胞后,MTT检测结果证明该基因的产物可能对细胞的增殖具有促进作用。     

尘螨变应原Der f1 真核表达载体的构建及转染CHO 细胞

目的:构建尘螨变应原Der f1真核表达载体,转染真核细胞并进行蛋白表达.方法:根据Genebank中Der f1基因的核酸序列(AB034946),设计引物,采用PCR法,从保存的JM109工程菌中扩增Der f1编码基因,克隆到真核表达质粒pcDNA3.1/myc-hisA上,以脂质体法转染CHO细胞,经G418筛选,进行稳定表达细胞株的筛选和鉴定.结果:将目的基因Der f1成功连接到pcDNA3.1/myc-hisA-Derf1并转染CHO细胞,获得稳定表达的CHO细胞株.结论:成功构建了尘螨变应原Der f1真核表达载体,并转染CHO细胞表达蛋白质.     

人Cuedc2真核表达载体的构建及其在HEK293细胞中的表达

目的:构建人Cuedc2的真核表达载体,并进行体外验证。方法:提取人卵巢癌细胞总RNA,通过RT-PCR的方法其反转录为cDNA;以之为模板,利用PCR获得Cuedc2的编码区,纯化后克隆入pcDNA3.1myc-his(-),利用菌落PCR及DNA测序进行鉴定。最后,采用瞬时转染的方法,将所构建的重组CUEDC2真核表达载体通过脂质体转染HEK293细胞,48h后通过western blot检测Cuedc2蛋白的表达。结果:Cuedc2编码区cDNA正确地插入真核表达载体pcDNA3.1myc-his(-)中,western blot检测证实其在HEK293细胞中表达,而空载体转染的细胞为阴性,表明所构建的pcDNA3.1myc-his(-)-Cuedc2能够在体外有效表达。结论:本研究成功地克隆了人Cuedc2 cDNA,构建了重组真核表达载体,并在HEK293细胞中有效表达,为进一步研究人Cuedc2的功能及其与肿瘤的关系奠定了实验基础。     

小鼠pDsRed-Meis1真核表达载体构建及子宫内表达的鉴定

目的构建小鼠Myeloid ectropic viral integration site 1(Meis1)基因和红色荧光蛋白(Red fluorescence protein,RFP)真核表达质粒,为进一步研究Meis1在生殖系统中的功能提供基础。方法设计引物,扩增含Meis1片段的克隆质粒中的meis1基因片段,将其插入真核表达载体pDsRed-N1,重组质粒经酶切鉴定后测序,并转染至小鼠子宫;用Western blot及免疫组织化学方法鉴定外源基因Meis1的表达。结果酶切和测序结果表明,构建的pDsRed-Meis1重组质粒正确;West-ern blot结果显示,外源性Meis1高表达于孕D2的小鼠子宫;转染后冰冻切片结果显示,带红色荧光蛋白的阳性产物表达于孕D4的小鼠子宫内膜及全层;免疫组织化学结果显示,Meis1阳性产物主要表达于孕小鼠子宫上皮、腺体和基质细胞内。结论正确构建了pDsRed-Meis1真核表达质粒,并成功转染及高表达于小鼠子宫,为进一步探讨Meis1在生殖系统中的功能提供了有利工具。     

大鼠脑内caveolin-1蛋白的表达及其在分辨学习中的作用

Caveolin-1（Cav—1）蛋白作为细胞质膜结构小窝（caveolae）的标志蛋白,在胆固醇运输、膜组装、信号转导和细胞转化过程中扮演重要的角色。为了探讨Cav-1蛋白在中枢神经系统可塑性及学习记忆中的作用,本文以Sprague—Dawley大鼠为实验对象,利用蛋白质免疫印迹杂交方法观察了Car-1蛋白在不同年龄大鼠脑内表达的特征,并研究了Y-迷宫训练前后Cav-1蛋白表达的变化。结果表明：（1）大鼠不同脑区Cav-1蛋白表达的年龄特征不同。海马内的表达属青年鼠最高,其次是老年鼠和幼年鼠;皮层内的表达属幼年鼠最高,其次是老年鼠,青年鼠最低;小脑内的表达无明显年龄差异。（2）Y-迷宫训练引起青年鼠海马和前额叶皮层内Cav-1蛋白的表达显著增加。结果提示,Cav-1蛋白与动物脑发育和学习记忆有密切关系,可能参与中枢可塑性的调节。     

PHLCX Nflag3/小窝蛋白-1重组质粒的构建及融合基因在293T细胞中的表达

构建重组真核表达质粒PHLCX Nflag3／小窝蛋白-1,并在293T细胞中表达．用PCR的方法扩增cDNA文库中的人小窝蛋白-1基因,连接在真核表达栽体PHLCX Nflag3的短肽标签flag的下游,用限制性酶切和泖l序的方法鉴定;将重组质粒以脂质体法转染293T细胞,Western blotting法检测蛋白质的表达．结果显示,双酶切出现两个片段,分别与空栽体和人小窝蛋白-1的cDNA分子质量大小相符,测序结果符合人小窝蛋白-1的cDNA序列;Western blotting显示构建的新栽体能够在293T细胞中表达小窝蛋白-1／flag融合蛋白,表明已成功构建了能在293T细胞中高效表达小窝蛋白-1／flag融合蛋白的真核表达栽体PLHCX Nflag3／小窝蛋白-1．     

Tyrosine phosphorylation of caveolin-1 in the endothelium

Caveolin-1, a scaffolding protein of caveolae, is known to be tyrosine-phosphorylated by Src kinases. Recently we generated a specific antibody to caveolin-1 phosphorylated at tyrosine-14 (PY14) (R. Nomura and T. Fujimoto, 1999, Mol. Biol. Cell 10, 975-986). In the present study, by applying PY14 to sections of normal rat tissues, we found that tyrosine phosphorylation of caveolin-1 occurred in limited locations, including the endothelium of the continuous capillaries and small venules. Cultured endothelial cells were not labeled by PY14 under a standard culture condition, but became positively labeled when exposed to oxidative stresses and/or tyrosine phosphatase inhibitors. The reaction was prohibited by pretreating the cells with herbimycin A or genistein. Vasoactive reagents or physical stimuli did not cause the phosphorylation. Concomitant with the tyrosine phosphorylation, the number of invaginated caveolae decreased drastically, and vesicles labeled intensely for caveolin-1 appeared in the cytoplasm; the average diameter of the vesicles was larger than that of caveolae. The result implies that tyrosine phosphorylation of caveolin-1 occurs at tyrosine-14 in the normal rat endothelium in vivo and may induce caveolar vesiculation and/or fusion.     

陷窝蛋白-1在肿瘤发生发展中的双重性

陷窝蛋白-1(caveolin-1)是陷窝(caveolae)的主要结构成分,在细胞内吞、胆固醇运输、信号传导、肿瘤发生中发挥重要作用。陷窝蛋白-1在肿瘤中发挥抑癌作用还是促癌作用一直存在争论:在乳腺癌、肺癌、卵巢癌中发挥抑癌基因样作用,而在前列腺癌中则发挥癌基因样作用。这一现象提示,陷窝蛋白-1在不同肿瘤中发挥作用可能不同,其生物学作用具有双重性。本文将对陷窝蛋白-1的结构、分布、表达及与肿瘤的关系作一综述。     

Nitric oxide down-regulates caveolin-1 expression in rat brains during focal cerebral ischemia and reperfusion injury

As a signalling molecule of the integral membrane protein family, caveolin participates in cellular signal transduction via interaction with other signalling molecules. The nature of interaction between nitric oxide (NO) and caveolin in the brain, however, remains largely unknown. In this study we investigated the role(s) of NO in regulating caveolin-1 expression in rat ischemic brains with middle cerebral artery occlusion (MCAO). Exposure to 1 h ischemia induced the increases in neuronal nitric oxide synthase (nNOS) and NO concentration with concurrent down-regulation of caveolin-1 expression in the ischemic core of rat brains. Subsequent 24 h or more reperfusion time led to an increase in inducible NOS (iNOS) expression and NO production, as well as a decline of caveolin-1 protein at the core and penumbra of the ischemic brain. Afterwards, NOS inhibitors and an NO donor were utilized to clarify the link between NO production and caveolin-1 expression in the rats with 1 h ischemia plus 24 h reperfusion. N(G)-nitro-l-arginine methyl ester (L-NAME, a non-selective NOS inhibitor), N(6)-(1-iminoethyl)-lysine (NIL, an iNOS inhibitor), and 7-nitroindazole (7-NI, a nNOS inhibitor) prevented the loss of caveolin-1 in the core and penumbra of the ischemic brain, whereas l-N(5)-(1-iminoethyl)-ornithine (L-NIO, an endothelial NOS inhibitor) showed less effect than the other NOS inhibitors. S-Nitroso-N-acetylpenicillamine (SNAP, a NO donor) down-regulated the expression of caveolin-1 protein in normal and ischemic brains. These results, when taken together, suggest that NO modulates the expression of caveolin-1 in the brain and that the loss of caveolin-1 is associated with NO production in the ischemic brain.     

Immunolocalization of caveolin-1 in rat and human mesothelium.

Flask-shaped vesicles have been described as caveolae in mesothelial cells in a number of animal species based on morphological criteria only. Using an antibody against caveolin-1, said to be a biochemical marker of caveolae, immunoelectron microscopy suggests that many but not all such vesicles in mesothelial cells are caveolae. Mesothelial cells from different anatomical sites showed obvious variations in both the population density and distribution of these flask-shaped vesicles and in their density of immunostaining. Lung and pericardial sac had the highest staining density. In some sites (e.g., lung, bladder, colon) caveolae were equally distributed between apical and basolateral surfaces, whereas in others (e.g., spleen, liver), they were predominantly apical. Additional immunopositive sites in the peritoneal membrane were identified, including the epineurium of peripheral nerves and the endothelium of lymphatic vessels. We further suggest that variations in the number of mesothelial cell caveolae and the density of their immunolabeling may have implications for our understanding of certain diseases such as malignant mesothelioma, especially in view of the recent hypothesis that it may be caused by SV40, a virus that appears to enter cells via caveolae.