可溶性重组hTRAIL蛋白抑制U251细胞生长

肿瘤坏死因子相关凋亡诱导配体(TNF-related apoptosis inducing ligand, TRAIL) 是TNF超家族中的成员,能够广泛诱导肿瘤细胞凋亡,对正常细胞无明显毒副作用. TRAIL已成为肿瘤治疗领域的研究热点.人脑胶质瘤是神经系统肿瘤中最常见类型, 占颅内肿瘤50%~60%,5年存活率为20%~30%. 本研究探讨可溶性TRAIL蛋白对人脑胶质瘤细胞（U251）的抑制作用. 由大肠杆菌表达系统表达的TRAIL多为包涵体,为获得可溶性的蛋白,将hTRAIL95~281功能区基因片段插入到pHisSUMO表达载体,经IPTG低温诱导表达,Ni-NTA Agarose纯化后获得可溶性SUMO-hTRAIL,经SUMO ProteaseⅠ切去SUMO融合标签后获得成熟可溶hTRAIL蛋白. 以U251细胞为靶细胞,通过MTT法检测TRAIL对肿瘤细胞的抑制作用.结果证明,TRAIL对U251细胞的抑制呈剂量依赖关系,最大抑制率为53.9%.流式细胞仪检测TRAIL诱导U251细胞凋亡实验中,对照组细胞存活率为92.2±0.8％,实验组细胞存活率为35.5±1.2%,证明重组蛋白具有生物学活性,并在体外能明显诱导U251肿瘤细胞发生死亡.本研究结果为TRAIL蛋白在临床上应用于肿瘤治疗奠定了基础.     

肿瘤坏死因子相关的凋亡诱导配体(TRAIL)cDNA的克隆、表达和活性测定

肿瘤坏死因子相关的凋亡诱导配体 (TRAIL)能选择性诱导肿瘤细胞凋亡 .为利用基因工程技术获得重组TRAIL蛋白可溶性片段 (sTRAIL) ,设计 1对引物 .利用PCR技术特异性扩增出sTRAIL的cDNA ,克隆于质粒pGEM 3Zf( )的EcoRⅠ和PstⅠ位点 .经测序证明序列正确后克隆于表达质粒pBV2 2 0的EcoRⅠ和PstⅠ位点 ,转化大肠杆菌DH5α .转化菌株经温度诱导 ,SDS PAGE检测和Western印迹鉴定 ,获得重组sTRAIL的高水平非融合表达菌株 .表达量占菌体总蛋白的 2 0 % .对其表达产物进行了初步纯化 ,SDS PAGE结果显示纯度可达 90 %以上 .用L92 9细胞测定其生物学活性表明 ,重组蛋白在体外能明显诱导肿瘤细胞凋亡     

sTRAIL基因的表达、纯化及其生物学活性的初步研究

在原核表达系统中表达重组人可溶性肿瘤坏死因子相关的凋亡诱导配体(sTRAIL)分子,纯化表达产物,并进行初步的生物学活性的研究中,通过提取外周血淋巴细胞总RNA进行RT—PCR克隆sTRAIL cDNA,构建sTRAIL的原核表达载体,用限制性酶切和DNA测序进行鉴定,IPTG诱导表达。以发酵罐放大培养,SDS-PAGE和Western-blot确认表达,用亲和层析和阳离子层析纯化表达产物,使用L929、Qay肝癌、K562人白血病等肿瘤细胞鉴定活性。结果发现重组表达的sTRAIL融合蛋白占总蛋白的39％,单纯蛋白纯化后纯度达95％,用抗人TRAIL多抗可以确认表达了TRAIL分子,能诱导几株肿瘤细胞凋亡。原核表达系统正确表达了TRAIL分子,并摸索了中试生产的条件,为其在肿瘤生物治疗中的应用奠定了基础。     

TRAIL包涵体在细胞内重折叠现象的初步研究

肿瘤坏死因子相关凋亡诱导配体（Ap02L／TRAIL）是一种新型的抗肿瘤蛋白。但在大肠杆菌表达系统中,表达的TRAIL蛋白往往容易聚集形成包涵体。本文对重组TRAIL包涵体在胞内重折叠转化成可溶性TRAIL蛋白作了初步探索,结果表明：当蛋白表达后,迅速降低温度至30℃并添加50μg／mL氯霉素继续培养4h,可溶性TRAIL产量可提高至16．7％。这一结果在3．7L罐上也得到了证实,可溶性TRAIL表达量达到14．5％。     

肿瘤坏死因子相关的凋亡诱导配体(TRAIL)基因抑制小鼠子宫基质细胞的蜕膜化

为了观察肿瘤坏死因子相关凋亡诱导配体(TRAIL)基因对体外培养的小鼠蜕膜基质细胞增殖及凋亡的作用,探讨TRAIL对小鼠子宫蜕膜化进程的影响,构建TRAIL过表达及干扰质粒,转染小鼠基质细胞后诱导蜕膜化发生.转染72h后,应用半定量RT-PCR和Western blotting检测蜕膜基质细胞中TRAILmRNA和蛋白质的表达情况、MTT法观察蜕膜基质细胞的生长和增殖能力、流式细胞术检测蜕膜基质细胞的细胞周期分布情况和凋亡率.经酶切和核苷酸测序证实,TRAIL基因正确克隆入真核表达载体且能够上调TRAIL的表达,干扰质粒能有效地抑制TRAIL基因的表达.TRAIL过表达和RNA干扰的结果表明:TRAIL具有将蜕膜基质细胞阻滞在G0/G1期、抑制蜕膜基质细胞增殖并促使其凋亡的功效,提示TRAIL可能参与调节胚胎植入后基质细胞的有序蜕膜化进程.     

人类肿瘤坏死因子相关凋亡配体活性部位基因在毕赤酵母中的表达

探讨了人类肿瘤坏死因子相关凋亡配体 (TRAIL)生物活性部分在巴斯德毕赤酵母 (Pichiapastoris)中的分泌表达。由于TRAIL活性部位区第 149 15 0氨基酸含有一个Kex2位点 ,根据Pichiapastoris分泌表达的特点 ,对 149位氨基酸进行了改造 ,使其编码的氨基酸由Arg突变为Lys。这样使TRAIL在分泌的过程中不被Kex2切割 ,保证了片段的完整。序列分析正确后 ,将编码TRAIL的可溶区的基因片段插入到酵母表达载体pPIC9K中 ,使之位于α 因子信号肽下游 ,且与之同框 ,构建分泌型表达载体pPIC9K TRAIL。采用原生质体法将重组质粒转化Pichiapastoris菌株GS115 ,获基因工程菌株Pichiapastoris(pPIC9K TRAIL)。将工程菌用甲醇诱导培养 3～ 4d ,对摇瓶发酵的培养上清进行SDS PAGE、Westernblot分析和体外生物活性检测 ,结果发现发酵液中分子量约为 19kD和 38kD的蛋白质能被TRAIL多克隆抗体特异性识别 ,且具有在体外诱导肿瘤细胞凋亡的活性。通过薄层扫描分析显示目的蛋白最高可占可溶性总蛋白的 36 %。上述实验结果表明 ,在Pichiapastoris中表达的TRAIL能以寡聚体的形式存在并且具有生物学活性。     

提高重组TRAIL表达产率的优化策略

肿瘤坏死因子相关凋亡诱导配体（Apo2L/TRAIL）是一种新型的抗肿瘤蛋白。针对缩短发酵周期,提高生产效率这一目标,首先在摇瓶中利用响应面设计优化发酵表达条件,总TRAIL蛋白的表达量提高到25.7%。在此基础上研究了发酵条件对可溶性TRAIL蛋白表达量的影响。于3.7L发酵罐放大进行补料-分批发酵实验时,单位菌体可溶性TRAIL蛋白的表达量提高了67%,实现了在大肠杆菌高密度培养过程中单位细胞重组TRAIL蛋白的可溶性表达和体积生产率的提高。     

肿瘤细胞抗TRAIL凋亡诱导的分子机制

肿瘤坏死因子相关的凋亡诱导配体(tumornecrosisfactor-relatedapoptosis-inducingligand,TRAIL)是肿瘤坏死因子(tumornecrosisfactor,TNF)超家族的成员之一,它能选择性诱导肿瘤细胞凋亡,对大多数正常细胞无杀伤作用。研究表明,某些恶性肿瘤抵抗TRAIL诱导的凋亡,且TRAIL重复作用使一些TRAIL敏感的细胞产生获得性抗性,这是TRAIL应用于肿瘤治疗的重大障碍。现对与TRAIL凋亡诱导通路直接相关的抗TRAIL机制及由Akt等途径介导的抗性分子机制进行综述。     

基于TRAIL的肿瘤治疗策略进展

肿瘤坏死因子相关凋亡诱导配体(TRAIL)能选择性诱导肿瘤细胞凋亡,且对机体正常组织细胞无毒副作用,被认为是一种非常有潜力的抗癌药物。我们简要介绍TRAIL及其配体诱导细胞凋亡的机制、肿瘤细胞对TRAIL的耐受机制及其克服策略。     

人TRAIL基因原核表达载体的构建及鉴定

目的：克隆肿瘤坏死因子相关凋亡诱导配体（TRAIL）基因片段（114～281氨基酸残基）并构建原核表达载体。方法：取健康人外周血提取总RNA,设计合成引物并引入EcoR I和Xho I酶切位点,RT-PCR扩增TRAIL基因的胞外区片段,克隆入原核表达载体pGEX-6P-1中,经双酶切、PCR及测序鉴定阳性克隆。结果：从外周血cDNA中扩增出501 bp的目的片段,测序结果证实成功构建重组质粒pGEX-6P-1/TRAIL。结论：成功构建TRAIL基因的原核表达载体pGEX-6P-1/TRAIL,为肿瘤细胞的凋亡研究提供理论依据。     

Nucleoside diphosphate kinase Nm23-M1 involves in oligodendroglial versus neuronal cell fate decision in vitro

The adult glial progenitor cells were recently shown to be able to produce neurons in central nervous system (CNS) and to become multipotent in vitro. Although the fate decision of glial progenitors was studied extensively, the signals and factors which regulate the timing of neuronal differentiation still remain unknown. To elucidate the mechanisms underlying the neuronal differentiation from glial progenitors, we modified the gene expression profile in NG2⁺ glial progenitor cells using enhanced retroviral mutagen (ERM) technique followed by phenotype screening to identify possible gene(s) responsible for glial-neuronal cell fate determination. Among the identified molecules, we found the gene named non-metastatic cell 1 which encodes a nucleoside diphosphate kinase protein A (Nm23-M1 or NME1). So far, the Nm23 members have been shown to be involved in various molecular processes including tumor metastasis, cell proliferation, differentiation and cell fate determination. In the present study, we provide evidence suggesting the role of NME1 in glial-neuronal cell fate determination in vitro. We showed that NME1 is widely expressed in neuronal structures throughout adult mouse CNS. Our immunohistochemical results revealed that NME1 is strongly colocalized with NF200 through white matter of spinal cord and brain. Interestingly, NME1 overexpression in oligodendrocyte progenitor OLN-93 cells potently induced the acquisition of neuronal fate, while its silencing was shown to promote oligodendrocyte differentiation. Furthermore, we demonstrated that dual-functional role of NME1 is achieved through cAMP-dependent protein kinase (PKA). Our data therefore suggested that NME1 acts as a switcher or reprogramming factor which involves in oligodentrocyte versus neuron cell fate specification in vitro.     

体细胞重编程逆转为干细胞的研究进展

目前细胞和发育生物学上的研究成果为生物医学研究提供了广泛的前景.将完全分化的细胞重编程,不经过胚胎逆转为多能干细胞状态,这点燃了再生医学应用的新希望,这一成果从法律、道德、伦理等不同方面被人们所接受.通过体细胞克隆胚胎获得干细胞所面临的破坏胚胎的伦理限制,促使研究者去寻求将分化细胞重编程逆转为干细胞的新方法.主要论述了体细胞重编程的原理、过程及不经过胚胎逆转为多能干细胞的方法.     

胚胎干细胞起源的探讨

目前胚胎干细胞(ESCs)建系的取材来源包括桑椹胚的卵裂球、囊胚的内细胞团(ICM)、上胚层细胞和原始生殖细胞(PGCs),甚至从新生鼠睾丸细胞也分离得到类ES样细胞系。这就提出了一个问题,什么是ESCs最接近的体内细胞来源。传统观念常常把ESCs等同于ICM细胞,也有学者认为ESCs更象上胚层细胞,而在已知的分子标记基因方面,ESCs所具有的特征更接近体内早期生殖细胞。不清楚ESCs最接近的体内细胞来源,可能是制约许多品系小鼠和大多哺乳类动物建系成功率提高的原因之一。ESCs系与EG细胞系的分离条件不同表明,加强对ESCs多能性维持基因调控研究具有重要意义。本文从ESCs的经典概念及其发展,早期胚胎细胞和生殖细胞发育规律,早期胚胎细胞、早期生殖细胞和ESCs的关系等方面进行综合分析,认为ESCs可能有多种接近的体内细胞来源。进一步应通过对ESCs建系不同的取材细胞和不同品系的ESCs间进行比较研究,以便弄清ESCs的来源和转化机制,为提高不同物种ESCs建系效率提供理论支持。     

Fine needle aspiration (FNA) cytology of pilomatrixoma

FNA smears from five histologically confirmed cases of pilomatrixoma were reviewed to delineate the cytological features helpful in diagnosis. A combination of basaloid cells, ghost cells and foreign body giant cells appeared to be necessary in FNA smear for a confident cytodiagnosis of pilomatrixoma. Presence of naked nuclei, nucleated squamous cells and calcification were additional features in favour of the diagnosis. Another 10 cases with initial cytodiagnosis of pilomatrixoma or benign skin appendage tumour were reviewed. Using the above criteria, diagnosis of pilomatrixoma was easy in five cases. One case was problematical due to presence of atypical squamous cells. Initially the cytological features were most commonly confused with epidermal inclusion cyst, giant cell lesion or a squamous cell carcinoma. The main reasons for erroneous diagnosis were lack of awareness of cytological features, predominance of one component over the others, and non‐representative FNA smears. Atypia in nucleated squamous cells, and misinterpretation of basaloid cells as malignant can lead to diagnostic dilemma. Adequate clinical data are also necessary.     

诱导型细胞的研究进展

胚胎干细胞(ES细胞)和诱导型多能干细胞(iPS细胞)的研究进展为生物学基础研究注入了新的活力,然而免疫排斥、致瘤性以及诱导效率低等缺陷制约其进一步快速发展和临床应用．最近,科学家借鉴iPS细胞诱导技术和传统的诱导体系,将终末分化细胞直接诱导为功能性细胞,如心肌细胞、神经细胞和肝脏细胞,称为诱导型细胞．这些研究进展极大地促进了细胞分化、重编程和表观遗传学的研究,也为人类再生医学的研究提供了新的途径．     

Induction of γδT cells from HSC-enriched BMCs co-cultured with iPSC-derived thymic epithelial cells

T cells bearing γδ antigen receptors have been investigated as potential treatments for several diseases, including malignant tumours. However, the clinical application of γδT cells has been hampered by their relatively low abundance in vivo and the technical difficulty of inducing their differentiation from hematopoietic stem cells (HSCs) in vitro. Here, we describe a novel method for generating mouse γδT cells by co-culturing HSC-enriched bone marrow cells (HSC-eBMCs) with induced thymic epithelial cells (iTECs) derived from induced pluripotent stem cells (iPSCs). We used BMCs from CD45.1 congenic C57BL/6 mice to distinguish them from iPSCs, which expressed CD45.2. We showed that HSC-eBMCs and iTECs cultured with IL-2 + IL-7 for up to 21 days induced CD45.1⁺ γδT cells that expressed a broad repertoire of Vγ and Vδ T-cell receptors. Notably, the induced lymphocytes contained few or no αβT cells, NK1.1⁺ natural killer cells, or B220⁺ B cells. Adoptive transfer of the induced γδT cells to leukemia-bearing mice significantly reduced tumour growth and prolonged mouse survival with no obvious side effects, such as tumorigenesis and autoimmune diseases. This new method suggests that it could also be used to produce human γδT cells for clinical applications.     

Whole cell biocatalysts stabilization for l-carnitine production

We present how whole cells can be used in different ways to stabilize enzyme catalysts in the cell environment to perform biotransformations. Some of the factors which affect their use in biotransformations, such as the nature of the substrate/product, the reusability of cells, the extension of cell viability by cell activation periods or the addition of energetic substrates and the stabilization in solids supports, are considered. The use of sufficiently active enzymes in the cell environment to perform biotransformations within growing, resting, permeabilized, dried, osmotically stressed, freely suspended and immobilized cells, is discussed in the text. The different cell states of enterobacteria, such as Escherichia coli and Proteus sp., can be used to produce l-carnitine from crotonobetaine or d-carnitine substrate, are analyzed.     

Bovine mammary stem cells: cell biology meets production agriculture

Mammary stem cells (MaSC) provide for net growth, renewal and turnover of mammary epithelial cells, and are therefore potential targets for strategies to increase production efficiency. Appropriate regulation of MaSC can potentially benefit milk yield, persistency, dry period management and tissue repair. Accordingly, we and others have attempted to characterize and alter the function of bovine MaSC. In this review, we provide an overview of current knowledge of MaSC gained from studies using mouse and human model systems and present research on bovine MaSC within that context. Recent data indicate that MaSC retain labeled DNA for extended periods because of their selective segregation of template DNA strands during mitosis. Relying on this long-term retention of bromodeoxyuridine-labeled DNA, we identified putative bovine MaSC. These label-retaining epithelial cells (LREC) are in low abundance within mammary epithelium (<1%). They are predominantly estrogen receptor (ER)-negative and localized in a basal or suprabasal layer of the epithelium throughout the gland. Thus, the response of MaSC to estrogen, the major mitogen in mammary gland, is likely mediated by paracrine factors released by cells that are ER-positive. This is consistent with considerable evidence for cross-talk within and between epithelial cells and surrounding stromal cells. Excision of classes of cells by laser microdissection and subsequent microarray analysis will hopefully provide markers for MaSC and insights into their regulation. Preliminary analyses of gene expression in laser-microdissected LREC and non-LREC are consistent with the concept that LREC represent populations of stem cells and progenitor cells that differ with regard to their properties and location within the epithelial layer. We have attempted to modulate the MaSC number by infusing a solution of xanthosine through the teat canal and into the ductal network of the mammary glands of prepubertal heifers. This treatment increased the number of putative stem cells, as evidenced by an increase in the percentage of LREC and increased telomerase activity within the tissue. The exciting possibility that stem cell expansion can influence milk production is currently under investigation.