表达外源rhBMP2的CHO细胞株稳定性分析

骨形态发生蛋白2(BMP2)属于TGF-β超家族,是诱导成骨活性最强的BMPs之一, 具有广泛的临床应用的前景。本实验室已成功构建高效表达rhBMP2的重组CHO细胞株, 现选取其中一株表达量最高的细胞rCHO(hBMP2)-C8进行长期体外培养, 并在培养过程中比较了添加和去除压力筛选中使用的MTX对细胞生长, rhBMP2基因拷贝数及rhBMP2分泌蛋白表达的影响;检测了该细胞株在无血清培养基中可以连续表达rhBMP2的时间以及培养基中rhBMP2的温度敏感性等等。该研究为进一步采用动物细胞规模化培养技术生产rhBMP2奠定了基础。     

适于无血清贴壁培养的抗凋亡宿主细胞系CHO-IVB2的构建

应用无血清培养基培养CHO细胞时,由于没有血清提供各种贴壁因子,细胞以悬浮的方式生长。在实际的大规模细胞培养中,CHO细胞往往以贴壁方式培养,要么贴壁于悬浮的微载体中,要么贴壁于固定的聚酯盘状介质或中空纤维中,而很少直接悬浮于培养基中。在无血清培养基中,Vitronectin单一组分可以促使CHO细胞的贴壁和扩增。通过双表达lgf-1和Bcl-2基因,已经构建了可以在无蛋白培养基IMEM中抗凋亡生长的细胞株CHO-IB3。在此基础上,构建了可以同时表达Igf-1、Vitronectin和Bcl-2三个蛋白的三顺反子表达载体pCI—NII—IVB。将该载体转染于CHO—dhfr^-细胞中,构建了一个细胞株CHO—IVB2。该细胞株可以在无蛋白培养基中抗凋亡生长,适于以贴壁的方式大规模培养,用于大量生产外源目的蛋白。     

人骨形态发生蛋白7在中国仓鼠卵巢细胞中的表达研究

目的:构建重组人骨形态发生蛋白-7(rhBMP7)表达质粒,并研究其在中国仓鼠卵巢细胞中的表达。方法:将hBMP7重组表达质粒电转到中国仓鼠卵巢细胞(CHO)中,并用DOT-BLOT和ELISA方法分析检测rhBMP7在重组CHO细胞中的表达。结果:hBMP7 cDNA整合到CHO细胞基因组中并被转录。点杂交和ELISA检测证实rhBMP7在CHO细胞中得到表达。结论:hBMP7成功在CHO表达系统中得到表达。     

适于无血清贴壁培养的抗凋亡宿主细胞系CHO-IVB2的构建

应用无血清培养基培养CHO细胞时 ,由于没有血清提供各种贴壁因子 ,细胞以悬浮的方式生长。在实际的大规模细胞培养中 ,CHO细胞往往以贴壁方式培养 ,要么贴壁于悬浮的微载体中 ,要么贴壁于固定的聚酯盘状介质或中空纤维中 ,而很少直接悬浮于培养基中。在无血清培养基中 ,Vitronectin单一组分可以促使CHO细胞的贴壁和扩增。通过双表达Igf_1和Bcl_2基因 ,已经构建了可以在无蛋白培养基IMEM中抗凋亡生长的细胞株CHO_IB3。在此基础上 ,构建了可以同时表达Igf-1、Vitronectin和Bcl-2三个蛋白的三顺反子表达载体pCI-NII-IVB。将该载体转染于CHO-dhfr^- 细胞中 ,构建了一个细胞株CHO-IVB2。该细胞株可以在无蛋白培养基中抗凋亡生长 ,适于以贴壁的方式大规模培养 ,用于大量生产外源目的蛋白.     

利用同源蛋白的信号肽和前肽序列在CHO细胞中表达重组人BMP6

BMP6属于TGF-β超家族,具有较强的骨诱导作用。主要利用BMP6自身的信号肽、前肽与成熟肽基因序列构建了表达质粒pcDNA-BMP6;同时利用BMP2的信号肽、前肽与BMP6的成熟肽基因序列构建了表达质粒pcDNA-BMP2/6。将两种质粒分别瞬时转染Cos7细胞,发现质粒pcDNA-BMP2/6表达rhBMP6的效率高于质粒pcDNA-BMP6。然后将质粒pcDNA-BMP2/6与含二氢叶酸还原酶基因(dhfr)的表达质粒共转染dhfr缺陷型的中华仓鼠卵巢(CHO)细胞,经G418筛选、氨甲蝶呤(MTX)介导目的基因扩增、亚克隆后得到表达rhBMP6成熟肽的单克隆细胞株。将表达产物rhBMP6初步纯化后,能诱导前成肌细胞系C2C12向成骨细胞方向转化,显示其具有骨诱导作用。     

骨形成蛋白诱导型真核载体的构建及其表达

成骨分化相关基因骨钙素 (OC)等的启动子内均含有成骨特异性转录因子Cbfa1特异性作用元件 ,而骨形成蛋白 (bonemorphogeneticprotein ,BMP)的促成骨分化作用正是通过其首先引起Cbfa1的升高 ,而后Cbfa1激活这些基因的表达 ,最终出现成骨分化表型 .为解决BMP没有理想的活性测定方法的问题 ,在RT PCR结果证实BMP 2可促进NIH3T3和C2C12细胞Cbfa1表达后 ,构建了串联6个Cbfa1作用元件的小鼠OC部分启动子 (6OCP)控制萤光素酶 (luciferase)报告基因的真核表达质粒 ,以期来放大BMP诱导报告基因表达的作用效果 .即通过细胞转染、rhBMP 2刺激后检测萤光素酶活性变化 ,从而间接定量测定rhBMP 2的生物学活性 .结果表明 ,pcDNA3 6OCP Luc转染细胞后其报告基因的基础活性较pcDNA3 Luc大为降低 ;而且在一定剂量范围内 ,转染细胞的萤光素酶活性 (荧光值 )随rhBMP 2剂量增加而升高 ,并呈线性正相关 ,为建立BMP活性定量测定的方法打下基础     

定点整合人Bcl-2基因的CHO/dhfr-细胞株的建立

构建重组载体质粒pMCEfrt—Bcl-2,利用FIp—In^TM定点重组系统,在CHO—dhfr^-细胞内定点整合人Bcl-2基因,通过Western印迹检测重组细胞Bcl-2蛋白的表达。通过流式细胞仪和DNA Ladder检测在高NH4C1条件下细胞的凋亡情况;用台盼蓝染色检测在无血清IMDM培养基中细胞的活细胞数目和活细胞比例。结果获得了稳定表达Bcl-2基因的细胞株CHO—Bcl-2,该细胞株能高水平表达Bcl-2蛋白。在无血清培养过程中,CHO—Bcl-2细胞比对照细胞保持高约15％的活细胞比例,细胞总数高25％。CHO-Bcl-2在高NH4^＋（50mmol／L）培养条件下具有较低的凋亡水平。建立了能够高表达Bcl-2基因并具有一定的抗凋亡能力的重组CHO／dhfr^-细胞株。     

重组人BMP6在大肠杆菌中可溶表达、纯化及活性分析

BMP6是一种调节成骨细胞和成软骨细胞分化的骨诱导因子, 在修复各种骨缺损方面具有很好的应用潜力。有诱骨活性的BMP6是多二硫键的二聚体蛋白, 疏水性极强容易聚集沉淀。为了在大肠杆菌中可溶表达具有生物活性的重组人BMP6(rhBMP6), 构建了具有TRX、GST、MBP、CBD融合标签和His6标签的 rhBMP6成熟肽原核表达载体, 调节诱导温度和IPTG浓度, 比较不同融合标签和诱导条件对目的蛋白表达量和溶解性的影响。结果表明, MBP最能有效的增强rhBMP6的溶解性, 诱导条件对溶解性影响较小。大肠杆菌BL21 trxB(DE3)这种硫氧还蛋白还原酶缺陷菌株为rhBMP6二硫键在胞质中形成提供了合适的氧化还原环境。MBP和BL21 trxB(DE3)相结合在细胞质中高效可溶表达出了BMP6融合蛋白二聚体。表达产物经亲和层析和凝胶排阻层析纯化后, 能诱导成肌细胞系C2C12向成骨细胞方向 转化。     

重组人BMP6在大肠杆菌中可溶表达、纯化及活性分析

BMP6是一种调节成骨细胞和成软骨细胞分化的骨诱导因子,在修复各种骨缺损方面具有很好的应用潜力.有诱骨活性的BMP6是多二硫键的二聚体蛋白,疏水性极强容易聚集沉淀.为了在大肠杆菌中可溶表达具有生物活性的重组人BMP6(rhBMP6),构建了具有TRX、GST、MBP、CBD融合标签和His6标签的rhBMP6成熟肽原核表达载体,调节诱导温度和IPTG浓度,比较不同融合标签和诱导条件对目的蛋白表达量和溶解性的影响.结果表明,MBP最能有效的增强rhBMP6的溶解性,诱导条件对溶解性影响较小.大肠杆菌BL21 trxB(DE3)这种硫氧还蛋白还原酶缺陷菌株为rhBMP6二硫键在胞质中形成提供了合适的氧化还原环境.MBP和BL21 trxB(DE3)相结合在细胞质中高效可溶表达出了BMP6融合蛋白二聚体.表达产物经亲和层析和凝胶排阻层析纯化后,能诱导成肌细胞系C2C12向成骨细胞方向转化.     

表达重组抗CD52单克隆抗体CHO细胞灌流培养基的筛选

目的筛选重组抗CD52单克隆抗体CHO细胞株培养和连续灌流表达用培养基,以提高抗体表达量。方法通过调整原有批培养用培养基中谷氨酰胺和植物水解蛋白,获得5种培养基配比。使用模拟灌注方式进行细胞培养,分析细胞密度、活细胞比率和目标蛋白表达,筛选连续灌流细胞培养和表达用培养基。最后在7 L反应器中采用灌注培养方式对筛选获得的培养基进行验证。结果使用50 mL细胞培养管进行模拟灌注培养时,活细胞比率较高,达到90%以上;CHO细胞在添加谷氨酰胺至4.0 mmol/L和植物水解蛋白至5.0 g/L的批培养用培养基中生长速度最快;在基础培养基中抗体表达量比优化前高15%。20 d培养周期内,优化的培养基在7 L反应器中可以维持CHO细胞密度在(2 727±253)万个/mL,活细胞比率在95%以上。结论通过模拟灌注培养,筛选获得了一种在7 L反应器灌流培养中适宜于重组抗CD52单克隆抗体CHO细胞表达的培养基。     

Comparison of cell‐based versus cell‐free mammalian systems for the production of a recombinant human bone morphogenic growth factor

The human bone morphogenetic protein‐2 (hBMP2) is a glycoprotein, which induces de novo bone formation. Here, recombinant production in stably transfected Chinese Hamster Ovary (CHO) cells is compared to transient expression in Human Embryo Kidney (HEK) cells and cell‐free synthesis in CHO cell lysates containing microsomal structures as sites of post‐translational processing. In case of the stably transfected cells, growth rates and viabilities were similar to those of the parent cells, while entry into the death phase of the culture was delayed. The maximum achievable rhBMP2 concentration in these cultures was 153 pg/mL. Up to 280 ng/mL could be produced in the transient expression system. In both cases the rhBMP‐2 was found to interact with the producer cells, which presumably contributed to the low yields. In the cell‐free system, hBMP2 yields could be increased to almost 40 μg/mL, reached within three hours. The cell‐free system thus approached productivities for the active (renatured) protein previously only recorded for bacterial hosts, while assuring comprehensive post‐translational processing.     

人骨形态发生蛋白12对人骨肉瘤细胞的生物学作用

为研究人骨形态发生蛋白(human bone morphogenetic proteins,hBMP)12对人骨肉瘤细胞株MG63和U2OS的作用,分别用hBMP12重组腺病毒(AdBMP12)以及含重组hBMP12(recombinant hBMP12,rhBMP12)的条件培养液干预人骨肉瘤细胞MG63和U2OS,利用台盼蓝拒染法、TUNEL法、吖啶橙/溴乙啶(AO/EB)荧光双染法、Transwell小室和碱性磷酸酶活性测定法分别检测细胞增殖、凋亡、迁移以及成骨分化能力的变化.与相应对照组相比,AdBMP12和含rhBMP12的条件培养液的干预致两种骨肉瘤细胞株细胞存活率降低,并呈一定的时间依赖性;凋亡率均随时间延长而增加,并且两种检测方法的结果一致;不同时间点的细胞穿膜数均明显减低;碱性磷酸酶活性在干预3d后开始逐渐增加,至第9d仍可观测到.以上差异均有统计学意义(P<0.01).提示无论是以腺病毒介导基因转入还是重组蛋白直接作用方式,hBMP12都可以抑制人骨肉瘤细胞株MG63和U2OS的增殖和迁移,并诱导其凋亡和向成骨细胞分化.     

Adaptation of Chinese hamster ovary cells to low culture temperature: cell growth and recombinant protein production

Recombinant Chinese hamster ovary (rCHO) cells producing erythropoietin (EPO) and rCHO cells producing follicle-stimulating hormone (FSH) showed a significant increase in specific productivity (q) when grown at 32 degrees C compared to 37 degrees C. However, low culture temperature suppressed cell growth, and therefore, did not increase volumetric productivity as much as q. In an attempt to increase the volumetric productivity through improvement of hypothermic growth, EPO producing rCHO (CHO-EPO) cells and FSH producing rCHO (CHO-FSH) cells were adapted at 32 degrees C in a repeated batch mode using spinner flasks. Cell growth of both CHO-EPO and CHO-FSH gradually improved during adaptation at 32 degrees C. Specific growth rates of CHO-EPO and CHO-FSH cells at 32 degrees C, through adaptation, were increased by 73% and 20%, respectively. During adaptation at 32 degrees C, mRNA levels of cold-inducible RNA-binding protein (CIRP) of both rCHO cell lines did not change significantly, suggesting that CIRP expression may not be the only cause for growth suppression at low culture temperature. Unlike cell growth, the recombinant protein production of both rCHO cell lines was not increased during adaptation due to decreased specific productivities. The specific EPO productivity and specific FSH productivity were decreased by 49% and 22%, respectively. Southern blot analyses showed that the decreased specific productivities were not due to the loss of foreign gene copies. Taken together, improvement of hypothermic cell growth by adaptation does not appear to be applicable for enhanced recombinant protein production, since specific productivity decreases during adaptation to the low culture temperature.     

Application of a cell-once-through perfusion strategy for production of recombinant antibody from rCHO cells in a Centritech Lab II centrifuge system

Based upon the results of scale-down intermittent perfusion processes, a cell-once-through (COT) perfusion concept was applied to a dual bioreactor system coupled to a Centritech Lab II centrifuge for culture of recombinant Chinese hamster ovary (rCHO) cells for monoclonal antibody production. In this new culture mode, i.e., the COT perfusion process, total spent medium was transferred to the centrifuge and a fixed percentage was removed. Approximately 99% of the viable cells are transferred to another bioreactor filled with fresh medium by single operation of the Centritech Lab II centrifuge system for about 30 min. Accordingly, a significant reduction of the cell-passage frequency to the centrifuge led to minimization of cell damage caused by mechanical shear stress, oxygen limitation, nutrient limitation, and low temperature outside the bioreactor. The effects of culture temperature shift and fortified medium on cell growth and recombinant antibody production in the COT perfusion process were investigated. Although the suppressive effects of low culture temperature on cell growth led to a loss of stability in a long-term COT perfusion culture system, the average antibody concentration at 33 degrees C was 157.8 mg/L, approximately 2.4-fold higher than that at 37 degrees C. By the use of a fortified medium at 37 degrees C, rCHO cells were maintained at high density above 1.2 x 10(7) cells/mL, and antibody was produced continuously in a range of 260-280 mg/L in a stable long-term COT perfusion culture. The proposed new culture mode, the COT perfusion approach, guarantees the recovery of rCHO cells damaged by lowered temperature or high lactate and ammonium concentration. It will be an attractive choice for minimization of cell damage and stable long-term antibody production with high cell density.     

Autophagy and apoptosis of recombinant Chinese hamster ovary cells during fed-batch culture: effect of nutrient supplementation

Upon nutrient depletion during recombinant Chinese hamster ovary (rCHO) cell batch culture, cells are subjected to apoptosis, type I programmed cell death (PCD), and autophagy which can be type II PCD or a cell survival mechanism. To investigate the effect of nutrient supplementation on the two PCDs and protein production in rCHO cells, an antibody-producing rCHO cell line was cultivated in batch and fed-batch modes. The feed medium containing glucose, amino acids, and vitamins was determined through flask culture tests and used in bioreactor cultures. In the bioreactor cultures, the nutrient feedings extended the culture longevity and enhanced antibody production. In addition, cells in the fed-batch culture showed delayed onset of both apoptosis and autophagy, compared with those in the batch culture. The inhibition of apoptosis was demonstrated by a decreased amount of cleaved caspase-7 protein and less fragmentation of chromosomal DNA. Concurrently, reduced LC3 conversion, from LC3-I to LC3-II, was observed in cells that received the feeds. Cultivation with pharmacological autophagy inducer (rapamycin) or inhibitor (bafilomycin A1) indicated that autophagy is necessary for the cells to survive under nutrient depletion. Taken together, the delayed and relieved cell death by nutrient supplementation could improve antibody production.     

Application of sodium propionate to the suspension culture of Chinese hamster ovary cells for enhanced production of follicle-stimulating hormone

In this study, we found that adding sodium propionate to batch culture medium resulted in cell growth suppression in a dosedependent manner, while it enhanced follicle-stimulating hormone (FSH) production in Chinese hamster ovary (CHO) cells. In a pseudo-perfusion culture, with the exchange of fresh medium containing 2.5 mM sodium propionate, a final FSH of 532 μg was obtained, which was approximately 1.5-fold higher than the control. Overall, the results demonstrate that the application of sodium proplonate for the commercial production of recombinant proteins in rCHO cells is feasible.     

Mouse embryonic fibroblast (MEF)/BMP4-conditioned medium enhanced multipotency of human dental pulp cells

Dental pulp cells (DPCs) are valuable cell source for dental regeneration, albeit their application is restricted by limited pluripotency due to current culture condition. Mouse embryonic fibroblasts (MEFs) are served as feeder layer to maintain undifferentiated state of iPSCs and ESCs with long-term in vitro culture. Bone morphogenetic protein 4 (BMP4) plays an important role in the regulation of undifferentiated state and lineage commitment of cells through modulation of microenvironment. However, so far little was known how micro environment affect the multipotency of dental derived cells. To demonstrate the effect of optimized culture condition on multipotency of DPCs, cell proliferation and senescence of DPCs with MEF and/or rhBMP4-CM were examined by CCK8, telomerase activity and flow cytometry. Multilineage differentiation was detected by immunofluorescent staining, Real-time PCR and western blot. Expression of BMP4/NFATc1/LIF in the co-culture medium was evaluated by ELISA and expression of Oct-4/Sox2/c-Myc/NFATc1 in co-cultured DPCs was detected by Real-time PCR. NFATc1 inhibitor INCA-6 was applied to DPCs with MEF and/or rhBMP4-CM, expression of NFATc1/Oct-4/Sox2/c-Myc was examined by Realtime PCR and western blot. Our results demonstrated that DPCs cultured with MEF and/or rhBMP4-CM showed increased cell proliferation, telomerase rate and multilineage differentiation capability. MEF-CM enhanced expression of Oct-4/Sox2/c-Myc/NFATc1 in co-cultured DPCs through secretion of BMP4/NFATc1 in the culture medium. INCA-6 effectively restrained the MEF/BMP4-CM induced upregulation of Oct-4/Sox2/c-Myc/NFATc1 in DPCs. These resuts indicate that both MEF-CM and BMP4-CM provided similar efficient culture system to improve the multipotency of DPCs, which might contribute to the application of DPCs in dental regeneration.     

Biphasic culture strategy based on hyperosmotic pressure for improved humanized antibody production in Chinese hamster ovary cell culture

Hyperosmotic pressure increased specific antibody productivity (q(Ab)) of recombinant Chinese hamster ovary (rCHO) cells (SH2-0.32) and it depressed cell growth. Thus, the use of hyperosmolar medium did not increase the maximum antibody concentration substantially. To overcome this drawback, the feasibility of biphasic culture strategy was investigated. In the biphasic culture, cells were first cultivated in the standard medium with physiological osmolality (294 mOsm/kg) for cell growth. When cells reached the late exponential growth phase, the spent standard medium was replaced with the fresh hyperosmolar medium (522 mOsm/kg) for antibody production. The q(Ab) in growth phase with the standard medium was 2.1 microg per 10(6) cells/d, whereas the q(Ab) in antibody production phase with the hyperosmolar medium was 11.1 microg per 10(6) cells/d. Northern blot analysis showed a positive relationship between the relative contents of intracellular immunoglobulin messenger ribonucleic acid and q(Ab). Because of the enhanced q(Ab) and the increased cell concentration in biphasic culture, the maximum antibody concentration obtained in biphasic culture with 522 mOsm/kg medium exchange was 161% higher than that obtained in batch culture with the standard medium. Taken together, the simple biphasic culture strategy based on hyperosmotic culture is effective in improving antibody production of rCHO cells.