中国鄂温克、鄂伦春、达斡尔族永生细胞系的建立与保存

本文采用EBV（Epstein?Barr Virus）上清液转化B淋巴细胞,并加入环胞霉素A（Cyclosporine A）抑制T淋巴细胞,成功地对中国东北地区鄂温克族、鄂伦春族及达斡尔族的部分个体建立了永生细胞系,其中鄂温克族49株,鄂伦春族40株,达斡尔族51株,总计140株。永久保存我国特有民族的基因组,为分析其遗传学差异奠定了基础。 Abstract：The immortal lymphoblastoid cell lines were established by EBV transformation of B cells and addition of cyclosporin A to inhabit the activity of T cells.In the present study ,140 immortal cell lines of the Ewenki,the Oroqen and the Daur ethnic groups in the Northeast China were established .This is an important part of the research of human genome diversity for the exploration of the origin and progression of different ethnic groups ,and also provide enough research materials for further studies.     

内蒙地区九个民族的ABO血型分布

本文报告了９个民族ＡＢＯ血型分布,特征有三种：汉族和回族为Ｂ＞Ｏ＞Ａ;达斡尔族为Ｂ＞Ａ＞Ｏ;其余民族（蒙、鄂温克、朝鲜、满族、俄罗斯、鄂伦春族）为Ｏ＞Ｂ＞Ａ,基因频率ｒ（Ｏ）：鄂温克（０．７５４９）较高,达斡尔（０．５２３４）和回族（０．５１７１）较低。Ｐ（Ａ）：鄂温克（０．１１３８）偏低,朝鲜族（０．２２７７）和达斡尔族（０．２２５３）偏高。ｑ（Ｂ）：回族（０．２８１８）略高,鄂温（０．１３１３     

Epstein—Barr病毒膜抗原基因免疫的研究

将Ｅｐｓｔｅｉｎ－Ｂａｒｒ病毒（ＥＢＶ）膜抗原（ＭＡ）ＢＬＬＦ１基因,插入含有ＣＭＶ启动子的真核表达载体ｐｃＤＮＡ３下游ＢａｍＨＩ位点,构建成真核表达质粒ｐｃＤＮＡ３－ＭＡ。将纯化的ＤＮＡ注射Ｂａｌｂ／ｃ小鼠股四头肌。经免疫的动物产生抗ＥＢ病毒ＭＡ特异性的抗体和中和抗体,依赖抗体细胞介导的细胞毒作用（ＡＤＣＣ）,特异性Ｔ淋巴细胞增生性反应及细胞毒性Ｔ淋巴细胞（ＣＴＬ）杀伤作用。基因免疫与基因－蛋白     

汉滩病毒核壳蛋白（NP）在杆状病毒系统的表达及其免疫原性研究

应用杆状病毒表达载体成功地表达了汉滩病毒７６－１１８株（ＨＴＮＶ）核壳蛋白,将ＨＴＮＶＳ基因插入杆状病毒转染质粒ｐＡｃＹＭＩＢ的多角体基因启动子下游附近,与经Ｂｓｕ３６１酶切线性化的杆状病毒（ＡｃＶＥＰＡ）ＤＮＡ共同转染Ｓ１９细胞,经空斑筛选获得了高效表达ＮＰ的重组杆状病毒（ＡｃＶＨａｎＳ）。经ＳＤＳ－ＰＡＧＥ和Ｗｅｓｔｅｒｎ ｂｌｏｔ证实,表达产物与ＨＴＮＶ毒粒ＮＰ分子量均为５０ＫＤ左右,紫外扫     

Epstein-Barr病毒膜抗原基因免疫的研究

将Ｅｐｓｔｅｉｎ－Ｂａｒ病毒（ＥＢＶ）膜抗原（ＭＡ）ＢＬＬＦ１基因,插入含有ＣＭＶ启动子的真核表达载体ｐｃＤＮＡ３下游ＢａｍＨＩ位点,构建成真核表达质粒ｐｃＤＮＡ３－ＭＡ。将纯化的ＤＮＡ注射Ｂａｌｂ／ｃ小鼠股四头肌。经免疫的动物产生抗ＥＢ病毒ＭＡ特异性的抗体和中和抗体,依赖抗体细胞介导的细胞毒作用（ＡＤＣＣ）,特异性Ｔ淋巴细胞增生性反应及细胞毒性Ｔ淋巴细胞（ＣＴＬ）杀伤作用。基因免疫与基因－蛋白联合免疫效果相似。不同启动子控制下的ＭＡ基因,诱发小鼠免疫应答无明显差异。     

湖北地区宫颈癌组织中人乳头瘤病毒16型E7基因的分离、克隆和序列分析

采用加端聚合酶链反应技术,从湖北地区一宫颈癌患者癌组织ＤＮＡ中分离出人乳头瘤病毒１６型（ＨＰＶ１６）Ｅ７基因,并在ｐＵＣ１８载体中克隆。经限制性核酸内切酶分析和ＤＮＡ序列分析,确认了含ＨＰＶ１６Ｅ７重组克隆质粒,命名ｐＨＰＶ１６Ｅ７─ＨＢ。ＤＮＡ序列分析表明,ＨＰＶ１６Ｅ７─ＨＢ基因全长２９４ｂｐ（与报道的标准株基因长度相同）,但其核苷酸顺序中有两处发生了Ｃ→Ｔ突变,即第４３位密码子ＣＡＡ变为ＴＡＡ,第７６位ＣＧＴ变为ＴＧＴ;前者使谷氨酰胺密码子变为终止密码,即无义奕变（ｎｏｎｓｅｎｓｅｍｕｔａｔｉｏｎ）。这种突变发生在２９４个碱基的ＤＮＡ扩增产物之中,不像是ＰＣＲ本身的错配,而很可能是湖北株与标准株之间的结构差异。     

日本的蛇咬伤Ⅰ：毒蛇的种类及蛇伤流行病学

日本的蛇咬伤Ⅰ：毒蛇的种类及蛇伤流行病学李其斌日本蛇族学术研究所,国立筑波大学急救部ＳＮＡＫＥＢＩＴＥＳＩＮＪＡＰＡＮ──Ⅰ：ＶａｒｉｅｔｉｅｓｏｆＶｅｎｏｍｏｕｓＳｎａｋｅｓａｎｄｔｈｅＥｐｉｄｅｍｉｏｌｏｇｙｏｆＳｎａｋｅＢｉｔｅｓＬｉＱｉｂｉｎ...     

乙型肝炎表面抗原凝难判定血清的研究

用中国药品生物品检定所检定合格的国内外ＨＢｓＡｇＥＩＡ试剂及ＡＢＢＯＴＴ抗－ＨＢｓ、抗－ＨＢｃＥＩＡ试剂,对所收集的１３份ＨＢｓＡｇ疑难判定血清进行检测,并用ＰＣＲ方法检测血清中ＨＢＶＤＮＡ,结果显示国内外ＨＢｓＡｇ试剂对部分ＨＢＶＤＮＡ阳性样品的检出率差异较大,提示这些样品可能为Ｓ基因突变株或ＨＢｓＡｇ含量较低,因此,ＨＢｓＡｇＥＩＡ试剂的敏感度仍有待进一步提高,并应进一步研制检测Ｓ基因突变株的     

含有Epstein-Barr病毒膜抗原的重组表达质粒及其基因免疫

将Ｅｐｓｔｅｉｎ－Ｂａｒ（ＥＢ）病毒主要的膜抗原（ＭＡ）ＢＬＬＦ１基因片段插入ｐＨＤ１０１－３质粒的ＣＭＶ启动子下游,构建了真核表达质粒ｐＨＤ－ｇｐ３５０,并转染２９３细胞进行瞬间表达。用免疫荧光法从细胞膜检测到表达的抗原能与其单克隆抗体发生特异性结合,Ｗｅｓｔｅｒｎ－ｂｌｏｔ法证实,表达的抗原分子量为３５０ｋＤ．用能在真核细胞表达的重组质粒ｐＨＤ－ｇｐ３５０的ＤＮＡ,经Ｓｅｐｈａｒｏｓｅ２Ｂ柱纯化后,注射经普鲁卡因预处理的Ｂａｌｂ／Ｃ小鼠的四头肌,观察到ＥＢＶ－ＩｇＡ／ＭＡ抗体水平比ＥＢＶ－ＩｇＧ／ＭＡ低,而ＥＢＶ－ＩｇＡ／ＭＡ的持续时间比ＥＢＶ－ＩｇＧ／ＭＡ长。采用表达ＥＢＶＭＡ的质粒ＤＮＡ与ＣＨＯ细胞表达的ＭＡ蛋白免疫小鼠,均获得抗ＥＢＶＭＡ的抗体。     

黄地老虎颗粒体病毒DNA片段的克隆与颗粒体蛋白基因的定位

用ｐＵＣ１９质粒作载体,克隆了黄地老虎颗粒体病毒（Ａｇｒｏｌｉｓｓｅｇｅｔｕｍｇｒａｎｕｌｏｓｉｓｖｉｒｕｓ,简称ＡｓＧＶ）ＤＮＡＰｓｔＩ－Ｄ．Ｅ．Ｆ．Ｇ．Ｈ．Ｊ．Ｋ．等７个片段。以［￣（３２）Ｐ］－ｄＣＴＰ标记的油桐尺蠖核型多角体病毒（Ｂｕｚｕｒａｓｕｐｐｒｅｓｓａｒｉａｎｕｃｌｃａｒｐｏｌｙｈｅｄｒｏｓｉｓｖｉｒｕｓ简称ＢｓＮＰＶ）多角体蛋白基因为探针,在３７℃条件下对ＡｓＧＶ）颗粒体蛋白基因进行了定位,将其分别定位于ＢｓｌⅡ－Ｓ或ＴＰｓＴＩ－Ａ或Ｂ和ＥｃｉＲＩ－Ａ片段上。     

中国10个民族永生细胞系的建立与保存

永久保存我国各少数民族的遗传信息是中国人类基因组计划的重要内容,为此,采用EB病毒(epstein-barr Svirus EBV)上清液及Hepes转化外周血B淋巴细胞,并加入环孢霉素A(cyclosporine A)抑制T淋巴细胞,成功地对中国哈萨克族、满族、朝鲜族、赫哲族、蒙古族、锡伯族、回族、布依族、四川汉族和福建汉族的部分个体建立了永生细胞系。其中哈萨克族64株,朝鲜族58株,赫哲族18株,锡伯族43株,回族63株,布依族67株,满族65株,蒙古族62株,四川汉族51株,福建汉族58株。总计549株。为保存我国各民族遗传资源、分析各少数民族间的遗传学差异及其起源,奠定了材料基础。 Establishment and Preservation of Immortal Lymphoblastoid Cell Lines of the 10 Ethnic Groups in China HUANG Xiao-yi,LIU An,YU Yang,MA Lin-lin,SHI Rong-qian,Lü Fu-qu,JIANG Yan,SUN Wen-jing,XUE Ya-li,FU Song-bin,LI Pu Department of Medical Genetics,Harbin Medical University,Harbin 150086,China Abstract:The immortal lymphoblastoid cell lines were established by EBV transformation of B cells and addition of cyclosporin A to inhibit the activity of T cells.In the present study,549 immortal cell lines of different ethnic groups of Hazak,Manchu,Korea,Hozhe,Mongolia,Sibe,Hui, Puyi,Han in Fujian and Han in Sichuan were established.Through our research,we found it is harmful for B lymphocytes to transform if excessful leucocytes are inoculated.And it is crisis that cyclosporine A shoud be added the last.Our work is an important part of the research of human genome diversity for the exploration of the origin and evolution of different ethnic groups,and it also provides enough research materials for further studies.Moreover,we have sent 50 cell lines of Hozhe,Mongolia,Sibe,Daur,Oroqen to CEPH.Thus it is possible for us to utilize the genetic resources of CEPH freely. Key words：immortal lymphoblastoid cell line;EBV;ethnic groups;reserved in liquid-nitrogen     

Establishment and characterization of three immortal bovine muscular epithelial cell lines

We have established three immortal bovine muscular epithelial (BME) cell lines, one spontaneously immortalized (BMES), the second SV40LT-mediated (BMEV) and the third hTERT-mediated (BMET). The morphology of the three immortal cell lines was similar to that of early passage primary BME cells. Each of the immortal cell lines made cytokeratin, a typical epithelial marker. BMET grew faster than the other immortal lines and the BME cells, in 10% FBS-DMEM medium, whereas neither the primary cells nor the three immortal cell lines grew in 0.5% FBS-DMEM. The primary BME cells and the immortal cell lines, with the exception of BMES, made increasing amounts of p53 protein when treated with doxorubicin, a DNA damaging agent. On the other hand, almost half of the cells in populations of the three immortal cell lines may lack p16(INK4a) regulatory function, compared to primary BME cells that were growth arrested by enforced expression of p16(INK4a). In soft-agar assays, the primary cells and immortal cell lines proved to be less transformed in phenotype than HeLa cells. The three immortal epithelial-type cell lines reported here are the first cell lines established from muscle tissue of bovine or other species.     

Molecular genetic approaches to the study of cellular senescence.

Normal cells in culture exhibit limited division potential, which is used as a model for cellular aging. In contrast, tumor-derived, carcinogen- or virus-transformed cells are capable of dividing indefinitely (immortal). Fusion of normal with immortal human cells yielded hybrids having limited life span, indicating that cellular senescence is a dominant phenotype and that immortality is recessive. Fusions of various immortal human cell lines with each other led to the identification of four complementation groups for indefinite division. In order to identify the chromosomes and genes involved in growth regulation, that had been modified in immortal cells, we used the technique of microcell fusion to introduce either a normal human chromosome 11 or 4 into cell lines representative of the different complementation groups. Chromosome 11 had no effect on the in vitro life span of the different immortal human tumor lines. However, when a normal human chromosome 4 was introduced into cell lines assigned to complementation group B, the cells lost the immortal phenotype. No effect on the proliferation potential of cell lines representative of the other complementation groups was observed. These results suggest that a gene(s) on human chromosome 4 has been modified in immortal cell lines assigned to complementation group B, to allow escape from senescence. They also provide evidence for a genetic basis for cellular aging.     

Establishment of immortal swine kidney epithelial cells

Using normal swine kidney epithelial (SKE) cells that were shown to be senescent at passages 12 to 14, we have established one lifespan-extended cell line and two lifespan-extended cell lines by exogenous introduction of the human catalytic subunit of telomerase (hTERT) and simian virus 40 large T-antigen (SV40LT), all of which maintain epithelial morphology and express cytokeratin, a marker of epithelial cells. SV40LT- and hTERT-transduced immortal cell lines appeared to be smaller and exhibited more uniform morphology relative to primary and spontaneously immortalized SKE cells. We determined the in vitro lifespan of primary SKE cells using a standard 3T6 protocol. There were two steps of the proliferation barrier at 12 and 20, in which a majority of primary SKE cells appeared enlarged, flattened, vacuolated, and ss-galactosidase-positive, all phenotypical characteristics of senescent cells. Lifespan-extended SKE cells were eventually established from most of the cellular foci, which is indicative of spontaneous cellular conversion at passage 23. Beyond passage 25, the rate of population doubling of the established cells gradually increased. At passage 30, immortal cell lines grew faster than primary counterpart cells in 10% FBS-DMEM culture conditions, and only SV40LT-transduced immortal cells grew faster than primary and other SKE immortal cells in 0.5% FBS-DMEM. These lifespan-extended SKE cell lines failed to grow in an anchorage-independent manner in soft-agar dishes. Hence, three immortalized swine kidney epithelial cells that are not transformed would be valuable biological tools for virus propagation and basic kidney epithelial cell research.     

A gene involved in control of human cellular senescence on human chromosome 1q.

Normal cells in culture exhibit limited division potential and have been used as a model for cellular senescence. In contrast, tumor-derived or carcinogen- or virus-transformed cells are capable of indefinite division. Fusion of normal human diploid fibroblasts with immortal human cells yielded hybrids having limited life spans, indicating that cellular senescence was dominant. Fusions of various immortal human cell lines with each other led to the identification of four complementation groups for indefinite division. The purpose of this study was to determine whether human chromosome 1 could complement the recessive immortal defect of human cell lines assigned to one of the four complementation groups. Using microcell fusion, we introduced a single normal human chromosome 1 into immortal human cell lines representing the complementation groups and determined that it caused loss of proliferative potential of an osteosarcoma-derived cell line (TE85), a cytomegalovirus-transformed lung fibroblast cell line (CMV-Mj-HEL-1), and a Ki-ras(+)-transformed derivative of TE85 (143B TK-), all of which were assigned to complementation group C. This chromosome 1 caused no change in proliferative potential of cell lines representing the other complementation groups. A derivative of human chromosome 1 that had lost most of the q arm by spontaneous deletion was unable to induce senescence in any of the immortal cell lines. This finding indicates that the q arm of human chromosome 1 carries a gene or set of genes which is altered in the cell lines assigned to complementation group C and is involved in the control of cellular senescence.     

Characterization of homologous DNA recombination activity in normal and immortal mammalian cells.

Homologous DNA recombination levels were measured in normal and spontaneously immortalized murine and human fibroblasts, and in a number of primate and murine established fibroblast cell lines. Immortal cell lines and tumor-derived clones homologously recombined extrachromosomal plasmid substrates at frequencies approximately 100-fold higher than did normal cells. To further explore the mechanism responsible for this phenotype, homologous recombination frequency was measured using nuclear extracts derived from normal and immortalized murine and human fibroblasts. Extracts prepared from immortal cells catalyzed high levels of homologous recombination, whereas very little recombination activity was detected in extracts prepared from normal fibroblasts. Similarly, only extracts derived from immortal cells contained strand-transferase activity as measured by the recently described pairing-on-membrane assay. Mixing experiments indicated that a recombination enhancing factor or factors present in immortal cells, rather than a recombination inhibitor in normal cells, was responsible for the enhanced homologous recombination activity observed using extracts derived from the former.     

Tumor suppression by chromosome 11 is not due to cellular senescence.

Previous hybrid studies involving fusion of normal with immortal human cells indicated that the phenotype of cellular senescence is dominant and that immortality results from recessive changes in normal growth regulatory genes. We have further assigned 28 different immortal human cell lines to at least four complementation groups for indefinite division. In order to identify the chromosomes involved in regulating cell proliferation, we have introduced single human chromosomes by microcell fusion into immortal human cells representative of the different complementation groups. Our results demonstrate that the introduction of chromosome 11, implicated in tumor suppression, does not cause cellular senescence in three different immortal human cell lines tested.     

Applications of immortalized cells in basic and clinical neurology

Immortalized cell lines can serve as model systems for studies of neuronal development and restoration of function in models of neurological disease. Cell lines which result from spontaneous or experimentally-induced tumors have been used for these purposes. More recently, the techniques of genetic engineering have resulted in the production of cell lines with specific desired characteristics. This has been accomplished by insertion of a desired gene into a pre-existing immortal cell or by immortalizing primary cells. The production of immortal cell lines using temperature-sensitive immortalizing genes offers an additional method of controlling gene expression, and thereby controlling cell proliferation and differentiation. In the nervous system, these techniques have produced immortal cell lines with neuronal and glial properties.