高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2013年
6期
1032-1038
,共7页
张存超%赵亮%陈飞%范里%王泽宋%谭文松
張存超%趙亮%陳飛%範裏%王澤宋%譚文鬆
장존초%조량%진비%범리%왕택송%담문송
有限稀释法%中国仓鼠卵巢细胞%抗体比生产速率%葡萄糖代谢
有限稀釋法%中國倉鼠卵巢細胞%抗體比生產速率%葡萄糖代謝
유한희석법%중국창서란소세포%항체비생산속솔%포도당대사
limiting dilution method%CHO cells%antibody specific productivity%glucose metabolism
产物比生成速率是衡量细胞株表现的重要指标,研究产物比生成速率有差异的细胞株有助于深入理解此参数,进而为获得具有高产物比生成速率的细胞株提供借鉴。以表达单克隆抗体的中国仓鼠卵巢(CHO)细胞为研究对象,通过有限稀释法筛选获得了抗体比生产速率比对照提高57.8%的亚克隆。以此为基础,对其生理生化特征、葡萄糖代谢以及抗体轻重链基因表达量进行了详细的分析。此亚克隆在 Hyclone SFM4CHO 培养基批次培养中,最高活细胞密度比对照降低了68.6%,其在指数生长期细胞干重、细胞直径、胞内总蛋白含量及胞内总蛋白和细胞直径比与对照相比均有不同程度的增加,且其表达产物的轻重链基因和信使 RNA 相对含量均有所提高。代谢方面,此亚克隆的葡萄糖比消耗速率比对照增加了77.9%,指数生长期线粒体相对合成活性比对照增加了172.5%,有助于增加产物的翻译速率。通过研究对表达单克隆抗体的高产亚克隆生理生化特征、葡萄糖代谢以及抗体轻重链基因表达量的分析,可为深入理解细胞培养过程中产物比生成速率的提高提供借鉴,同时为高产细胞株的构建和筛选提供指导。
產物比生成速率是衡量細胞株錶現的重要指標,研究產物比生成速率有差異的細胞株有助于深入理解此參數,進而為穫得具有高產物比生成速率的細胞株提供藉鑒。以錶達單剋隆抗體的中國倉鼠卵巢(CHO)細胞為研究對象,通過有限稀釋法篩選穫得瞭抗體比生產速率比對照提高57.8%的亞剋隆。以此為基礎,對其生理生化特徵、葡萄糖代謝以及抗體輕重鏈基因錶達量進行瞭詳細的分析。此亞剋隆在 Hyclone SFM4CHO 培養基批次培養中,最高活細胞密度比對照降低瞭68.6%,其在指數生長期細胞榦重、細胞直徑、胞內總蛋白含量及胞內總蛋白和細胞直徑比與對照相比均有不同程度的增加,且其錶達產物的輕重鏈基因和信使 RNA 相對含量均有所提高。代謝方麵,此亞剋隆的葡萄糖比消耗速率比對照增加瞭77.9%,指數生長期線粒體相對閤成活性比對照增加瞭172.5%,有助于增加產物的翻譯速率。通過研究對錶達單剋隆抗體的高產亞剋隆生理生化特徵、葡萄糖代謝以及抗體輕重鏈基因錶達量的分析,可為深入理解細胞培養過程中產物比生成速率的提高提供藉鑒,同時為高產細胞株的構建和篩選提供指導。
산물비생성속솔시형량세포주표현적중요지표,연구산물비생성속솔유차이적세포주유조우심입리해차삼수,진이위획득구유고산물비생성속솔적세포주제공차감。이표체단극륭항체적중국창서란소(CHO)세포위연구대상,통과유한희석법사선획득료항체비생산속솔비대조제고57.8%적아극륭。이차위기출,대기생리생화특정、포도당대사이급항체경중련기인표체량진행료상세적분석。차아극륭재 Hyclone SFM4CHO 배양기비차배양중,최고활세포밀도비대조강저료68.6%,기재지수생장기세포간중、세포직경、포내총단백함량급포내총단백화세포직경비여대조상비균유불동정도적증가,차기표체산물적경중련기인화신사 RNA 상대함량균유소제고。대사방면,차아극륭적포도당비소모속솔비대조증가료77.9%,지수생장기선립체상대합성활성비대조증가료172.5%,유조우증가산물적번역속솔。통과연구대표체단극륭항체적고산아극륭생리생화특정、포도당대사이급항체경중련기인표체량적분석,가위심입리해세포배양과정중산물비생성속솔적제고제공차감,동시위고산세포주적구건화사선제공지도。
Product specific productivity represents an overwhelming parameters for cell line, thus studies on cell lines with differed productivity provide deeper insights for understanding this parameter, and make suggestions for obtaining cell line with improved productivity. In this study, the productivity-enhanced cell variants from Chinese hamster ovary (CHO) cells producing monoclonal antibody (mAb) were artificially selected by limiting dilution method. Compared with the original cells, the specific productivity of the selected subclone NO.9 increases by 57.8%, thus its physiological and biochemical characteristics, gene expression and glucose metabolism were analysed in detail. In batch culture, the maximum viable cell density of NO.9 decreases by 68.6%. However, the specific productivity increases by 57.8%. During the batch culture, all the dry cell weight, cell diameter, intracellular protein and the ratio of intracellular protein to cell diameter of NO.9 increase in the logarithmic growing period, and the relative contents of gene and mRNA of heavy chain and light chain of NO.9 increase either. Besides, compared with the control, the specific consumption rate of glucose increases by 77.9%, the specific production rate of lactate increases by 68.0%;in logarithmic growing period, the relative mitochondrial synthetic activity increases by 172.5%, this will promote the product translation rate.The herein analyzed extensive features of the cell variant could help to understand the increased productivity during cell culture process, and it also offers advice for constructing and selecting the high-producer.
