微重力条件下细胞培养和组织工程研究进展

随着空间生命科学研究的发展,人们将细胞、组织培养技术与微重力环境相结合产生了组织工程研究的一个新领域——微重力组织工程。模拟微重力条件下细胞培养和组织构建研究表明,微重力环境有利于细胞的三维生长,形成具有功能的组织样结构,培养后的三维组织无论从形态上还是基因表达上都更接近于正常的机体组织。这种微重力对细胞的作用效应,将可能为未来组织工程和再生医学研究提供一条新途径。该文概述了近十年来国内外微重力组织工程相关研究的最新进展。     

人胚肺二倍体细胞株KMB17凋亡模型的建立

细胞凋亡作为生命的基本现象之一受到科学界的广泛重视（Ｌｉｎｄａ等,１９９８）,对其机理和应用的研究已渗透到生命科学的各个领域,成为当今生命科学领域的研究热点。特别是以动物细胞为培养基质的医药生物技术领域尤显重要。因为动物细胞培养技术是现代生物技术研究...     

模拟微重力条件下大鼠肝细胞三维培养支架材料的筛选(简报)

组织工程是一门新兴的边缘学科,它是利用体外培养的人体功能细胞与适当的细胞外基质或支架材料相结合,然后将其移植到体内病损部位以期达到修复目的。微重力组织工程(Microgravity Tis-sue Engineering)是近年来由美国空间生物技术研究人员开创的一个独特研究领域,其核心技术是建立微重力条件下哺乳动物细胞三维(Three Dimen-sion)培养体系。利用外壁转动生物反应器(RotatingWall Vessel Bioreactor,RWVB)模拟微重力培养环境,减少培养液对细胞产生的机械剪切力,增加细胞营养的补充,加速代谢产物的排除,因此可以大大改善离体细胞的培养条件,使在普通重力培养条件下只能二维贴壁生长的哺乳动物细胞表现出三维增殖与分化,这类分化的细胞团可进一步形成有功能的     

动物细胞培养用生物反应器及相关技术

动物细胞大量培养是生产生物制品的重要途径,它用到的关键设备是生物反应器。根据培养细胞、培养载体、培养液混合方式的不同,生物反应器主要有搅拌式、气升式、中空纤维式、回转式等,其中搅拌式规模最大。回转式是NASA于20世纪90年代中期开发的一种新型生物反应器,被誉为空间生物反应器,可用于组织工程研究。与生物反应器配套的技术主要有灌注、微载体、多孔微球、转入抗凋亡基因等,可以有效地提高细胞密度,增加生物制品产量,提高质量。今后生物反应器研制主要朝两个方向发展:一是,以高密度培养动物细胞生产蛋白质药物为目的,二是以三维培养动物细胞(主要是人类细胞)再生组织或器官为目的。     

高密度培养动物细胞的装置

动物细胞培养系指从动物体的一部分组织提取细胞,在单纯化体系中使其增殖的技术。利用这种技术,可对生命的最小结构——细胞,进行多方面的分析研究。发辰该技术的另一个重要意义是:由于细胞原样保持着生物体组织所特有的功能,所以在细胞内可以生产激素、酶、抗体等生理活性物质。这些生理活性物质是价值极高的医药品。因此,欲由可能增殖的人或动物细胞大量生产这些生理活性物质,就必须建立相应的技术。动物细胞比微生物细胞大,且不具有细胞壁,易断裂,营养要求亦复杂,所以大量培养动物细胞不能完全采用边     

人体与动物细胞大量培养的进展

人体与动物细胞是许多重要生化产物的来源。20多年来,随着体外细胞培养研究的发展,已逐步建立了以人体与动物细胞的大量培养来获取各种疫苗、人体干扰素、单克隆抗体、胰岛素、生长激素、血纤维溶血因子、凝血因子等一系列产物,而成为细胞工程的一个重要系统。例如,早在70年代,Hayflick等就从人胚组织中分离和建立了两个细胞株——MRC-5和WI-38,它们被广泛应用于病毒疫苗的细胞培养商业生产,Kohler和Milstein成功地融合了小鼠B-淋巴细胞和骨髓瘤细胞而产生能分泌预定单克隆抗体的杂交瘤细胞,并通过杂交瘤细胞的大量培养来制备单克隆抗体等等。     

动物细胞代谢工程进展

动物细胞被越来越广泛地用于工业生产,一些现代化企业已采用分子生物学技术,将一些比较重要的基因导入动物细胞,生产具有医用价值的药物。但该技术并未成熟,主要是因为体外培养的细胞,其生长代谢及生理模式都比较复杂,而且细胞的应答机制还受外界因素的影响。因此,采用细胞代谢工程手段,提高体外培养细胞的生长率、产品产率及有效性,成为人们追求的新目标。我们从细胞代谢中心途径、抑制细胞调亡的因素、细胞生长周期的控制及其相关代谢、多基因共表达代谢工程及糖基化代谢工程等方面对代谢工程进行阐述,为动物细胞的培养提供新的思路。     

动物细胞——细胞生物技术的突破

前言由于看法的转变及技术的发展,在过去几年中,动物细胞培养已成为一项起支配作用的技术。当制造商们由于受通常申请许可证规则的限制,只能使用人类二倍体细胞或原代细胞生产时,动物细胞一直没有成为首选的生产方法。过去,人类生物制品的制造者们总是很羡慕地看着制造兽药的同行们,用 BHK 细胞在8000L 搅拌罐中生产 FMDV(口蹄疫疫苗),希望有一天他们也能使用一种类似的方法。近几年,随着三种重要的生物制品分别由异倍体细胞、肿瘤组织来源的细胞或重组细胞(这类细胞已获准使用,见     

转瓶内部结构对无血清悬浮培养昆虫细胞的影响

以昆虫细胞为宿主进行基因工程产品的开发是动物细胞培养领域十分有吸引力的研究方向[1] 。由于昆虫细胞对营养要求极高 ,且对培养环境非常敏感 ,所以一般是在含有兼具营养及保护功能的胎牛血清的培养基中进行培养。血清一方面因其高额成本而限制了昆虫细胞大规模培养技术的发展 ,另一方面又因其成分复杂、富含蛋白而给外源基因表达产物的后处理带来困难。因此 ,昆虫细胞无血清培养技术的开发一直是细胞培养工程领域的研究热点 ,采用无血清培养技术取代传统的有血清培养技术已成为昆虫细胞 杆状病毒表达系统的发展趋势[2 ] 。然而 ,昆虫细…     

细胞培养微载体及其在生物医药领域的应用

细胞培养微载体能为贴壁依赖性细胞提供超大的附着生长表面,是动物细胞大规模培养过程中的一种重要生物功能材料。由于不同应用领域对细胞微载体的要求略有差异,因此产品设计开发已成为细胞微载体培养技术成功应用的关键。该文从细胞微载体的开发设计与应用水平上进行了综述,以探讨细胞微载体培养技术的发展方向。     

Application of a multiple surface tissue culture propagator for the production of cell monolayers,virus, and biochemicals

A new concept of tissue culture equipment and procedures was developed for the mass-scale growth of several types of animal tissue cells in monolayers on multiple glass surfaces. Continuous, cell lines, primary and diploid cell strains were grown in this equipment. Cells studied include primary bovine kidney, human diploid WI-38, human foreskin, and mouse CCL1 cells. Photomicrographic comparisons of cells grown by these techniques indicate they are morphologically identical to tissue culture cells grown in glass bottles or tubes. The growth of the tissue culture cells in the propagator was monitored by carbohydrate Utilization and acid production. Large-scale production of viruses and biochemicals on cells grown in the multiple-plate tissue culture propagator was accomplished. Virus titers were equal to those obtained from conventional bottle or tube cultures for several strains of influenza, parainfluenza, and respiratory syneytial viruses. High-titred mouse interferon was also produced in this system. In addition to tissue culture cell production, Eaton agent, Mycoplasma pneumoniae was grown on the multiple glass surfaces on a mass scale.     

Mouse Pancreas Tissue Slice Culture Facilitates Long-Term Studies of Exocrine and Endocrine Cell Physiology in situ

Studies on pancreatic cell physiology rely on the investigation of exocrine and endocrine cells in vitro. Particularly, in the case of the exocrine tissue these studies have suffered from a reduced functional viability of acinar cells in culture. As a result not only investigations on dispersed acinar cells and isolated acini were limited in their potential, but also prolonged studies on pancreatic exocrine and endocrine cells in an intact pancreatic tissue environment were unfeasible. To overcome these limitations, we aimed to establish a pancreas tissue slice culture platform to allow long-term studies on exocrine and endocrine cells in the intact pancreatic environment. Mouse pancreas tissue slice morphology was assessed to determine optimal long-term culture settings for intact pancreatic tissue. Utilizing optimized culture conditions, cell specificity and function of exocrine acinar cells and endocrine beta cells were characterized over a culture period of 7 days. We found pancreas tissue slices cultured under optimized conditions to have intact tissue specific morphology for the entire culture period. Amylase positive intact acini were present at all time points of culture and acinar cells displayed a typical strong cell polarity. Amylase release from pancreas tissue slices decreased during culture, but maintained the characteristic bell-shaped dose-response curve to increasing caerulein concentrations and a ca. 4-fold maximal over basal release. Additionally, endocrine beta cell viability and function was well preserved until the end of the observation period. Our results show that the tissue slice culture platform provides unprecedented maintenance of pancreatic tissue specific morphology and function over a culture period for at least 4 days and in part even up to 1 week. This analytical advancement now allows mid -to long-term studies on the cell biology of pancreatic disorder pathogenesis and therapy in an intact surrounding in situ.     

The effect of pre-cultivation of tobacco tissue culture on enzymatic separation of protoplasts from various cell types

A method of enzymatic separation of protoplasts from long-term tissue culture ofNicotiana tabacum L. is described. The efficiency of this method is dependent on conditions of separation and on the portion of meristematic cells in the tissue culture. This portion can be increased by pre-cultivations of the tissue on medium containing suitable concentration of hormones. The knowledge of the micromorphology of the filamentous culture enables us to investigate the course of release of protoplasts from various cell types. A preferential lysis of cell walls was observed between neighbouring cells in filaments and the fusion of their protoplasts was recorded. The preservation of cell walls which are not in a contact with other cells may be a result of the cell wall heterogeneity.     

以胶原膜为支架的心肌细胞体外三维培养

将从新生乳鼠心室肌组织获取的心肌细胞接种于鼠尾胶原膜三维支架和组织培养板,以细胞形态、细胞搏动、葡萄糖比消耗率(q_glu)、乳酸比产率(q_lac)、乳酸转化率(Y_lac/glu)、肌酸激酶及乳酸脱氢酶的活力为观察指标,比较心肌细胞在鼠尾胶原膜中三维(3D)培养和组织培养板中二维(2D)培养的差异。培养于鼠尾胶原膜的乳鼠心肌细胞在第5天形成闰盘连接,形成面积约为80mm³、肉眼可见自律性同步收缩的心肌细胞3D培养物。3D培养体系中乳鼠心肌细胞的q_glu、q_lac和Y_lac/glu的均值分别为7.37 μmol/10.6cells/d、2.92 μmol/106cells/d和0.38 μmol/μmol;2D培养体系中乳鼠心肌细胞的q_glu、q_lac和Y_lac/glu的均值分别为7.59 μmol/10.6cells/d、3.83 μmol/10.6cells/d和 0.51 μmol/μmol。两种培养体系中乳鼠心肌细胞的肌酸激酶及乳酸脱氢酶的活力无明显差别。实验结果表明：培养于鼠尾胶原膜的心肌细胞保持正常心肌细胞的代谢活力和收缩功能。     

Detection of a novel campylobacter cytotoxin

The culture filtrates from 10 Campylobacter species were screened for the presence of cytotoxins on a variety of selected tissue culture cell lines. Some Campylobacter jejuni strains showed no effects on tissue culture cell lines compared with other C. jejuni strains, especially C. jejuni 81116, which consistently produced a cytotoxin that was lethal to tissue culture cells. It was observed that CHO cells were the most sensitive cell line in detecting campylobacter cytotoxins. Samples containing the culture filtrate of C. jejuni 81116 prepared at various growth stages were used to determine the subcellular location of the cytotoxin. This C. jejuni 81116 cytotoxin appears to be a heat-stable toxin that is secreted from the cell during stationary phase; cytotoxin activity can be abolished with proteolytic enzymes.     

Novel method for fabrication of skeletal muscle construct from the C2C12 myoblast cell line using serum‐free medium AIM‐V

We have fabricated muscle tissue from murine myoblast cell line C2C12 by modifying the previously reported method. Fabrication of skeletal muscle tissue has been performed in many ways including the use of a biodegradable scaffold, a collagen gel‐embedded culture, or cell sheet tissue engineering, but the extent of tension generation remains low. Recently, a new skeletal muscle tissue engineering technique involving self‐dissociation of a cell sheet from a laminin‐coated polydimethylsiloxane surface was reported which mostly involved a primary cell culture or co‐culture of C2C12 and 10T1/2 cells. In this study, we succeeded in fabricating muscle tissue using C2C12 cells alone by enhancing cell–cell attachment by the use of serum‐free medium AIM‐V. C2C12 cells were seeded on to a laminin‐coated PDMS surface in a 35 mm culture dish with two silk sutures of 5 mm in length each pinned at two places 18 mm apart. Then, cells were allowed to differentiate in AIM‐V, and the cells started to dissociate in a sheet‐like manner after 5–8 days of differentiation. The cells remained attached to the silk sutures, and tissue having a cylindrical morphology was fabricated. After the cylindrical morphology had been obtained, the medium was changed to DMEM supplemented with 2% horse serum, followed by culture for an additional 5–8 days for maturation. Tissue fabricated using this method was excitable with electric pulse stimulation and the generated active tension was approximately 1.4× greater than that reported previously for a co‐culture of C2C12 and 10T1/2 cells. Immuno‐fluorescence study revealed the presence of a sarcomere structure within the fabricated tissue, and Western blotting confirmed the expression of muscle specific‐proteins. The increased active tension generation compared to that with the previously reported method is probably attributable to the increased proportion of myogenic cells in the tissue. Myooid fabricated from mono‐culture of C2C12 will be useful in the muscle study, especially in the area where gene modification is needed. Biotechnol. Bioeng. 2009;103: 1034–1041. © 2009 Wiley Periodicals, Inc.     

Biomedical advances from tissue culture

The demonstration that the “dedifferentiation” of cells commonly observed in the early days of tissue culture was due to selective overgrowth of fibroblasts led to enrichment culture techniques (alternate animal and culture passage) designed to give a selective advantage to functionally differentiated tumor cells. These experiments resulted in the derivation of a large number of functionally differentiated clonal strains of a range of cell types. These results gave rise to the hypothesis that cells in culture accurately represent cells in vivo but without the complex in vivo environment. This concept has been strengthened with the development of hormonally defined culture media in combination with functionally differentiated clonal cell lines, which have augmented the potential of tissue culture studies. The use of hormonally defined media in place of serum-supplemented media demonstrates that hormonal responses and dependencies can be discovered in culture. Discoveries of hormonal dependencies of cancer cells has led to therapies targeting intracellular signaling pathways while discoveries of hormonal responses of pluripotent cells are helping to identify the potential application of stem cells. In these and other ways tissue culture technology will continue to contribute to solving problems of human health.     

Cell growth optimization in microcarrier culture

Summary Three monkey kidney cell lines and primary chicken embryo cells were grown in microcarrier culture. The carrier support was DEAE-Sephadex gel beads at low anion exchange capacity prepared according to a protocol developed at the Massachusetts Institute of Technology. The growth rate of the cells and the final cell density in microcarrier culture was dependent on the concentration of the beads in culture and on the size of the initial cell inoculum. A bead concentration of 1.0 to 2.0 mg of beads/ml of tissue culture medium and a cell inoculum of 20,000 cells/cm² of bead surface appeared to be optimal. The efficiency of the microcarrier culture system was compared to that of stationary and roller bottle cultures. Stationary flasks gave cell densities about twofold higher than maximal densities in roller bottles and about threefold and twofold higher than cell densities in microcarrier culture at a bead concentration of 2.5 and 1.0 mg/ml, respectively. In terms of cell yield per millitier of tissue culture medium, the microcarrier culture was superior to roller bottle and stationary cultures. An advantage of the microcarrier culture system is its suitability for a scale up into large volume production units.     

Optimization of porcine urothelial cell cultures: Best practices,recommendations, and threats

Many experimental approaches have been conducted in order to isolate urothelial cells from bladder tissue biopsies, but each method described has utilized different protocols and sources of bladder tissue. In this study, we compared the different methods of urothelial cell isolation available in literature together with standardized methods in order to obtain more unified results. Five methods for primary porcine urothelial culture establishment were compared: tissue explants and four enzymatic methods utilizing collagenase II, dispase II, combination of dispase II and trypsin, and trypsin alone. The average number of isolated cells, cell morphology, success of established culture, average number of cells from the first passage, expression of p63 and pancytokeratin and the characterization of urothelial cell growth, and aging were analyzed during the in vitro culture. The method utilizing dispase II was the most efficient and reproducible method for the isolation and culture of porcine urothelial cells when compared to the other tested methods. Urothelial cells obtained by this method grew considerably well and the cultures were established with high efficiency, which enabled us in obtaining a large quantity of cells with normal morphology. Contamination with fibroblasts in this method was the lowest. The utilization of a proper method for urothelial cell isolation is a critical step in the urinary tract regeneration when using tissue engineering techniques. In summary, this study demonstrated that by utilizing the described method with dispase II, a suitable number of cells was achieved, proving the method useful for tissue regeneration.     

鸡胚三类组织体外培养细胞的生物学特性分析

采用组织培养的方法获取鸡胚不同组织细胞,利用M199培养基进行原代、传代培养,经形态学观察、生长曲线绘制、分裂指数测定等进行生物学特性分析。实验表明,鸡胚不同组织细胞具有不同的生物学特性,从形态结构到生长周期都有明显差异。获得的躯体来源细胞、心来源细胞为成纤维型,肺来源细胞为上皮型;其中,躯体来源细胞生长能力最强,心来源细胞次之,肺来源细胞最慢,躯体来源细胞倍增时间最短;核型分析表明,该实验体外培养的鸡胚细胞染色体数目为78条。上述结果可为今后鸡胚不同组织细胞的深入研究提供实验材料和依据。