一种用于基因芯片可靠的双轮RNA线性扩增技术

DNA微阵列能在一次实验中检测成千上万个基因的表达情况, 有助于阐明疾病发生的分子机制及发现新的诊治靶标.但常规方法需要大量RNA, 因而基于T7 RNA线性扩增技术逐渐成为微阵列表达谱实验中最常用的探针制备方法.本方法将实验步骤进一步改进,增加额外的一轮体外转录,并结合Klenow酶标记技术来制备cDNA靶标和寡核苷酸芯片杂交.从纳克量级的总RNA起始,本方法和常规的RNA单轮线性扩增法相比,仍然准确地保留了约70%的基因表达信息.同一RNA样本的自身比较实验及重复实验结果也显示,该方法具有较高的可靠性和重复性.RNA双轮体外扩增法需要的起始RNA相对于常规的单轮扩增法减少了很多（10 ng甚至更少）,因而非常适合分析那些只能提供微量RNA的样本.     

鼻咽癌差异表达基因PROL4特性分析

在正常成人鼻咽与鼻咽癌活检组织之间进行抑制性消减杂交和微阵列(microarray)杂交,获得了鼻咽癌差异表达基因PROL4的全长cDNA序列,其GenBank登录号为：AF530472.该基因包含567个核苷酸,其编码产物是由134个氨基酸组成的富含脯氨酸蛋白.采用RT-PCR证实了PROL4基因在鼻咽癌细胞株HNE1和鼻咽癌活检组织中表达下调或缺失（42/48）.12种组织RNA印迹显示：PROL4基因在人骨骼肌、胸腺和肺组织中表达,其转录本大小约为0.6 kb,与所克隆的PROL4基因的cDNA大小一致.进而通过肿瘤表达谱阵列（cancer profiling array）杂交检测了其在乳腺癌、子宫癌、结肠癌、胃癌、卵巢癌、肺癌、肾癌、直肠癌、甲状腺癌、子宫颈癌、前列腺癌、胰腺癌、小肠癌组织及其配对的正常组织的表达状况.     

鼻咽癌组织cDNA文库的构建及抗原基因的筛选

构建人鼻咽癌组织cDNA文库,以SEREX方法从cDNA文库中筛选鼻咽癌抗原基因。采用确诊鼻咽癌患者新鲜活检癌组织构建cDNA文库,测定原始文库滴度,进行蓝白筛选以确定文库的重组率。以建库组织来源患者的自身血清,采用“一对一” 的血清学方法筛选所构建的cDNA文库,阳性克隆经PCR检测鉴定后进行序列分析。经测定原始文库滴度为7.28×10⁶pfu/mL,含3.64×10⁶个重组子,重组率为94%,扩增文库滴度为3.8×10⁹pfu/mL,cDNA插入片段大小在0.5～3.0kb之间。文库经三轮血清学筛选共获得23个阳性克隆,分别代表了16个独立的cDNA插入片段（抗原基因）。其中10个与已知基因高度同源,另外6个基因与GenBank中已知基因的部分同源,其中有3个是新基因。利用SMART技术构建了高质量的人鼻咽癌组织cDNA表达文库,有利于以cDNA文库为基础的进一步的实验研究。应用SEREX技术初步筛选鼻咽癌组织cDNA文库,共得到16个鼻咽癌相关抗原基因,其中有3个是新基因,可能为鼻咽癌的免疫学研究提供新的研究分子。     

应用激光显微切割技术检测单个结肠细胞的基因表达

目的：探讨检测单个结肠细胞的基因表达的方法。方法：应用激光显微切割技术(1aser micmdissection)从冰冻切片上将单个结肠细胞切下,提取总RNA,将RNA逆转录成cDNA,采用巢式逆转录聚合酶链反应(nested RT—PCR)检测mRNA的表达。结果：在显微镜下用紫外激光显微切割机,将单个结肠细胞成功切下,提取RNA后,逆转录成cDNA,经过巢式RT—PCR扩增后,扩增产物在琼脂糖凝胶上清晰可见。结论：联合应用激光显微切割和巢式RT—PCR可以检测单个结肠细胞的基因表达。     

鼻咽癌转移相关基因的比较基因组杂交和cDNA微阵列研究

为筛选在鼻咽癌转移中起重要作用的基因 ,应用比较基因组杂交 (CGH)和cDNA微阵列方法研究成瘤和转移能力不同的鼻咽癌细胞株 6 10B和 5 8F .CGH结果显示 ,2种细胞株在 5p、7q、8p、9q、11p、12q和 17p的一定区域存在差异性扩增 ,在 2q存在差异性缺失 ;cDNA微阵列显示 ,相对于非转移性 6 10B细胞株 ,高转移性 5 8F细胞表现一些基因表达的上调及下调 ,CGH和cDNA微阵列的结合是筛选转移相关基因较好方法     

人鼻咽与鼻咽癌及肺癌基因表达谱差异的研究

研究鼻咽癌、肺癌与正常鼻咽组织基因表达谱差异及筛选鼻咽癌相关基因,采用α- ³²P逆转录标记组织总RNA,将cDNA探针与有5 184个基因或表达序列标签EST(expression sequence tag)的高密度cDNA微阵列GF200杂交,软件分析表达谱差异.结果发现三者均呈低表达为主的表达谱,密度值在200以上的基因及EST在鼻咽癌有110个,肺癌134个而鼻咽组织有158个;5个EST在鼻咽高表达但鼻咽癌低表达,3个EST在鼻咽癌高表达但正常鼻咽低表达.结果表明鼻咽癌与正常鼻咽及肺癌组织存在差异表达基因,可能还有新基因在鼻咽癌发生中起作用;采用高密度cDNA微阵列是一种筛选差异表达基因的快速有效方法.     

鼻咽癌上皮细胞株HNE1差异表达基因的分离与鉴定

为了分离鼻咽癌差异表达基因 ,应用抑制性扣除杂交技术 ,在正向抑制性扣除杂交中 ,以鼻咽癌上皮细胞株HNE1cDNA作为检测子 ,以人胚鼻咽上皮细胞cDNA作为驱赶子 ;在反向抑制性扣除杂交中 ,以人胚鼻咽上皮细胞cDNA作为检测子 ,以鼻咽癌上皮细胞株HNE1cDNA作为驱赶子 ,分别通过抑制性扣除杂交 ,构建了鼻咽癌上皮细胞株HNE1表达下调和表达上调的两个扣除cDNA文库 .从鼻咽癌相关的扣除cDNA文库中随机挑取 1 2 0 0个克隆 ,采用菌落PCR扩增其插入cDNA片段 ,自动点膜制备成cDNA微阵列膜 ,分别用鼻咽癌上皮细胞株HNE1、人胚鼻咽上皮mRNA经逆转录标记cDNA探针 ,分别与cDNA微阵列膜杂交 ,通过杂交信号的自动扫描分析 ,对杂交信号存在 5倍差异的克隆进行测序 ,获得了 1 0个鼻咽癌差异表达基因的cDNA片段 ,其中 3个为新基因序列 ,其GenBank登录号为 :AF5 1 0 1 88、AF5 1 0 1 89和AF5 1 0 1 90 ,7个代表已知基因序列 .采用RT PCR证实S1 0 0A8,CK1 9和RBP1基因在人胚鼻咽上皮中高表达而在鼻咽癌细胞株HNE1中低表达 .这些结果显示上述基因可能是鼻咽癌发生的重要因素     

激光捕获显微切割技术在膀胱移行细胞癌相关基因研究中的应用

背景与目的:激光捕获显微切割技术 (LCM)是获取均一目的细胞的有效方法。利用LCM技术从膀胱粘膜中分离膀胱移行上皮细胞从肿瘤间质细胞中分离膀胱癌细胞,进行RNA提取、纯化、浓缩以备进一步研究。方法:采用LCM技术分别从正常膀胱粘膜及膀胱癌组织冰冻切片中获取膀胱移行上皮细胞及膀胱癌细胞,提取RNA,并对微量RNA进行纯化、浓缩。然后用RT PCR验证TotalRNA中β actin基因表达水平。结果:对照实验Ⅰ证实经LCM后RNA完整性较好;经对照实验Ⅱ初步确定设定条件下LCMshooting次数与可获得RNA量间对应关系。从膀胱粘膜中捕获膀胱移行上皮细胞 2 5万shootings;从膀胱癌组织中获取癌细胞 2 0万shootings。经RT PCR验证β actin基因表达表达完整。结论:使用LCM技术能成功地获取较为均一的研究目的细胞,RNA完整性较好,能用于进一步研究中。     

激光显微切割分离细胞的微量RNA质量鉴定体系的 建立

摘要: 探索一套激光显微切割(Laser capture microdissection, LCM)分离细胞后获得的微量RNA质量鉴定标准操作流程。选取3个低温保存的胃癌旁组织样本, 冰冻切片进行甲酚紫染色和病理学检查, 利用激光显微切割技术分离非癌上皮细胞, 提取RNA并以Agilent 2100生物分析仪鉴定RNA的纯度和完整性。同时, 选择高、中、低3种不同表达丰度的6个基因(EF1A, ACTB, GAPHD, B2M, MED1, CK20), 在每个基因的5′和3′端设计引物, RT-PCR扩增。以3个培养细胞制备的高质量RNA和3个有降解的胃癌旁组织样本RNA作对照, RT-PCR扩增结果与Agilent 2100生物分析仪的结果高度一致。结果显示冻存组织进行冰冻切片结合病理学检查后, LCM获取细胞提取微量RNA采用RT-PCR进行质量鉴定是一种操作简单的稳定方法, 可以作为肿瘤基因组研究的有效和常规方法。     

用少量样本进行抑制性消减杂交

利用根据cap-finder方法建立的全长cDNA合成技术,扩增获得了恒河猴着床点子宫内膜组织表达mRNA的双链cDNA,通过抑制性消减杂交,成功地构建了恒河猴着床点消减文库.随机挑选文库中的阳性克隆,经点杂交证明27％为着床点差异表达的克隆.由此表明抑制性消减杂交结合cap-finder扩增全长cDNA的方法,可以有效地从少量而珍贵的样本中获得高质量的消减文库.     

High-quality RNA and DNA from flow cytometrically sorted human epithelial cells and tissues

Microarray technologies have made possible comprehensive analyses of nucleic acid sequence and expression. However, the technology to obtain efficiently high-quality RNA and DNA suitable for array analysis from purified populations of neoplastic cells from human tissues has not been well addressed. Microdissection can enrich for populations of cells present in various tumor tissues, but it is not easily automated or performed rapidly, and there are tissues in which cells of interest cannot be readily isolated based on morphologic criteria alone. Here we describe a protocol for efficient RNA and DNA isolation from flow cytometrically purified whole epithelial cells from primary tissue. The aqueous reagent, RNAlater, which preserves RNA, allows immunolabeling and purification of whole epithelial cells by flow sorting without special instrument preparation to reduce RNase activity. We used real-time PCR to determine RNA quality afterflow sorting. High-quality RNA and DNA suitable for expression and genotype analysis can be readily obtained from flow cytometrically purified populations of neoplastic cells from human tissues.     

Detection of biomarker gene expression by real-time polymerase chain reaction using amplified ribonucleic acids from formalin-fixed random periareolar fine needle aspirates of human breast tissue

OBJECTIVE: To address the detection of breast cancer biomarker gene expression in formalin-fixed random periareolar fine needle aspiration (RPFNA) samples of benign breast tissue collected during breast cancer prevention trials by quantitative real-time polymerase chain reaction (qPCR). STUDY DESIGN: Formalin-fixed breast epithelial cells collected by RPFNA and processed as thin layer preparations were isolated by laser capture microdissection (LCM). Ribonucleic acid (RNA) was extracted and amplified using a single round of T7-based linear amplification followed by quality assessment and biomarker assay using TaqMan chemistry. RESULTS: More than 80% of RPFNA samples yielded RNA of sufficient quantity and quality for measurement of a panel of biomarker genes following a single round of linear amplification. RNA and protein expression for estrogen receptor alpha, as assessed by LCM/qPCR and immunohistochemistry, were correlated. Amplification plots were similar for cDNA standards and cDNA derived from RPFNA samples. CONCLUSION: Assessment of gene expression using amplified RNA from microdissected formalin-fixed RPFNAs can increase the number of biomarkers used during breast cancer chemoprevention trials.     

改良手工显微切割法获取特定细胞提取高质量RNA

探讨显微切割过程中有效保持RNA完整性的组织固定方法,建立一种简易的手工显微切割法.应用自制“T形板”辅助冰冻切片,100％无水乙醇一次性脱水固定,“排除切割法”获取目的细胞,用TRIzol提取RNA,琼脂糖凝胶电泳和RT-PCR分析RNA质量.“一步法”固定可长时间保存RNA的完整性;从食管癌标本5个特定阶段的细胞中提取的RNA,经电泳和RT-PCR分析均具有较高的质量.无水乙醇“一步法”固定,在显微切割的过程中可有效保持RNA的完整性;T形板和“排除切割法”简化了手工显微切割的操作,提取的RNA质、量均可满足后续分子水平研究的需要.     

Optimized procedures for microarray analysis of histological specimens processed by laser capture microdissection

Analysis of cell-specific gene expression patterns using microarrays can reveal genes that are differentially expressed in diseased and normal tissue, as well as identify genes associated with specialized cellular functions. However, the cellular heterogeneity of the tissues precludes the resolution of expression profiles of specific cell types. While laser capture microdissection (LCM) can be used to obtain purified cell populations, the limited quantity of RNA isolated makes it necessary to perform an RNA amplification step prior to microarray analysis. The linearity and reproducibility of two RNA amplification protocols--the Baugh protocol (Baugh et al., 2001, Nucleic Acids Res 29:E29) and an in-house protocol have been assessed by conducting microarray analyses. Cy3-labeled total RNA from the colorectal cell line Colo-205 was compared to Cy5-labeled Colo-205 amplified RNA (aRNA) generated with each of the two protocols, using a human 10K cDNA array. The correlation of the gene intensities between amplified and total RNA measured in the two channels of each microarray was 0.72 and 0.61 for the Baugh protocol and the in-house protocol, respectively. The two protocols were further evaluated using aRNA obtained from normal colonic crypt cross-sections isolated via LCM. In both cases a microarray profile representative of colonic mucosa was obtained; statistically, the Baugh protocol was superior. Furthermore, a substantial overlap between highly expressed genes in the Colo-205 cells and colonic crypts underscores the reliability of the microarray analysis of LCM-derived material. Taken together, these results demonstrate that LCM-derived tissue from histological specimens can generate abundant amounts of high-quality aRNA for subsequent microarray analysis.     

Assessment of RNA in human breast tissue sampled by random periareolar fine needle aspiration and ductal lavage and processed as fixed or frozen specimens

Ductal lavage (DL) and random periareolar fine needle aspiration (RPFNA) have both been proposed as minimally invasive techniques to sample breast tissue during breast cancer prevention trials. Laser capture microdissection (LCM), linear RNA amplification and quantitative real-time polymerase chain reaction (qPCR) theoretically overcome the limitations of small specimen size obtained with DL and RPFNA. In order to test the yield, relative stability and amplifiability of RNA from fixed and archived RPFNA and DL specimens, breast tissue was sampled from individual high risk women (n = 9) by both DL and RPFNA. RPFNA samples showed good RNA/cDNA yield and amplification while only 2 of 9 of the paired DL specimens had cDNA of adequate quality for subsequent PCR. One and two rounds of linear amplification provided approximately a 200- and 20,000-fold enrichment of RNA, respectively. PCR analysis consistently detected ER and COX-1 mRNA in the majority of RPFNA samples examined while pS2, PCNA, VEGF and survivin expression varied with subject. RNA yield and/or stability was greater for fixed and archived RPFNA than DL specimens of breast tissue. In a subsequent study examining an expanded biomarker gene panel in fixed vs. frozen RPFNA samples, mRNA profiles and ranked relative mRNA abundance were similar (r = 0.89) for frozen and fixed RPFNA specimens. In summary, frozen RPFNA samples may be optimal for RNA endpoints in human breast cancer prevention trials but fixed RPFNA specimens allow similar analyses with greater convenience.     

Increased yield of total RNA from fine-needle aspirates for use in expression microarray analysis

Fine-needle aspirate samples hold the potential for gaining valuable insight into the molecular details and prognostic indicators for certain types of cancer in a limited volume of relatively pure tumor cells. Although limited, such clinical samples can be used with high efficiency when analyzed in conjunction with gene-dense expression microarrays. For this reason, it is essential to retrieve as much high-quality genetic material as possible from each fine-needle aspirate sample. We have conducted a study to improve the efficiency of extracting high quality total RNA to use in microarray analysis from single ex vivo fine-needle aspirate samples of 11 breast cancers added to RNAlater RNA Stabilization Reagent immediately upon collection. Approximately half the total RNA from fine-needle aspirate samples of breast cancers was isolated from the supernatant, and that RNA had similar quality and gene expression profile to the RNA that was isolated from the corresponding cell pellet. We recommend that the supernatant not be discarded when extracting RNA from fine-needle aspirate samples stored in RNAlater.     

Construction of a specialized cDNA library from plant cells isolated by laser capture microdissection: toward comprehensive analysis of the genes expressed in the rice phloem

Laser capture microdissection (LCM) is a powerful system which allows the isolation of selectively targeted cells from a tissue section for the analysis of gene-expression profiles of individual cells. The technique has been successfully used for the isolation of specific mammalian cells, mainly cancer cells. However, LCM has never been reported to be applied to the gene expression analysis of plant cells. We used a modified LCM system and successfully applied it to target and isolate phloem cells of rice leaf tissue whose morphology is apparently different from the surrounding cells. Total RNA was extracted from microdissected (approximately 150) phloem cells and the isolated RNA was used for the construction of a cDNA library following the T7 RNA polymerase amplification. Sequence analysis of 413 randomly chosen clones from the library revealed that there was a high level of redundancy in the population and the clones could be subclassified into 124 different groups that contained related sequences. Approximately 37% of both the redundant population and the non-redundant subgroups had novel components while approximately 63% were either homologues to the known genes reported to be localized in phloem of different plant species, or were homologues to other known genes. In situ hybridization revealed that putative amino acid permease, one of the non-redundant clones, was specifically expressed in the phloem. The results proved the effectiveness of construction of a specialized cDNA library from the specific plant cells.     

Optimizing Staining Protocols for Laser Microdissection of Specific Cell Types from the Testis Including Carcinoma In Situ

Microarray and RT-PCR based methods are important tools for analysis of gene expression; however, in tissues containing many different cells types, such as the testis, characterization of gene expression in specific cell types can be severely hampered by noise from other cells. The laser microdissection technology allows for enrichment of specific cell types. However, when the cells are not morphologically distinguishable, it is necessary to use a specific staining method for the target cells. In this study we have tested different fixatives, storage conditions for frozen sections and staining protocols, and present two staining protocols for frozen sections, one for fast and specific staining of fetal germ cells, testicular carcinoma in situ cells, and other cells with embryonic stem cell-like properties that express the alkaline phosphatase, and one for specific staining of lipid droplet-containing cells, which is useful for isolation of the androgen-producing Leydig cells. Both protocols retain a morphology that is compatible with laser microdissection and yield RNA of a quality suitable for PCR and microarray analysis.     

Laser microdissection and pressure-catapulting technique to study gene expression in the reoxygenated myocardium

For focal events such as myocardial infarction, it is important to dissect infarction-induced biological responses as a function of space with respect to the infarct core. Laser microdissection pressure catapulting (LMPC) represents a recent variant of laser capture microdissection that enables robot-assisted rapid capture of catapulted tissue without direct user contact. This work represents the maiden effort to apply laser capture microdissection to study spatially resolved biological responses in myocardial infarction. Infarcted areas of the surviving ischemic-reperfused murine heart were identified using a standardized hematoxylin QS staining procedure. Standard staining techniques fail to preserve tissue RNA. Exposure of the tissue to an aqueous medium (typically used during standard immunohistochemical staining), with or without RNase inhibitors, resulted in a rapid degradation of genes, with approximately 80% loss in the 1st h. Tissue elements (1 x 10(4)-4 x 10(6) microm(2)) captured from infarcted and noninfarcted sites with micrometer-level surgical precision were collected in a chaotropic RNA lysis solution. Isolated RNA was analyzed for quality by microfluidics technology and reverse transcribed to generate high-quality cDNA. Real-time PCR analysis of the cDNA showed marked (200- and 400-fold, respectively) induction of collagen Ia and IIIa at the infarcted site compared with the noninfarcted site. This work reports a sophisticated yet rapid approach to measurement of relative gene expressions from tissue elements captured from spatially resolved microscopic regions in the heart with micrometer-level precision.