重组CHO细胞培养过程中氨对细胞代谢的影响

研究了重组CHO细胞批培养过程中,氨浓度对细胞的葡萄糖、谷氨酰胺及其它氨基酸代谢的影响。表明,细胞对葡萄糖和谷氨酰胺的得率系数随着氨浓度的增加而降低,起始氨浓度为566mmol/L的批培养过程与起始氨浓度为021mmol/L的批培养过程相比,细胞对葡萄糖和谷氨酰胺的得率系数分别下降了78%和74%,细胞对其它氨基酸的得率系数也分别下降了50%～70%。氨浓度的增加明显地改变了细胞的代谢途径,葡萄糖代谢更倾向于厌氧的乳酸生成。在谷氨酰胺的代谢过程中,谷氨酸经谷氨酸脱氢酶进一步生成α酮戊二酸的过程受到了氨的抑制,而氨对谷氨酸经谷氨酸转氨酶反应生成α酮戊二酸的过程有促进作用,但总体上谷氨酸进一步脱氨生成α酮戊二酸的反应受到了氨的限制。     

氨浓度升高对CHO细胞维持期抗体融合蛋白的表达及N-糖基化的影响

为了深入理解在中国仓鼠卵巢(CHO)细胞流加培养过程中氨对抗体融合蛋白表达和N-糖基化的作用,认识氨影响N-糖基化加工的作用位点,考察了在细胞维持期(产物表达期)不同氨浓度条件与CHO细胞维持与代谢、抗体融合蛋白表达和N-糖链结构的关系。结果显示,氨浓度在5-12 mmol/L范围内对维持期的细胞生长曲线、葡萄糖和谷氨酰胺的消耗以及乳酸和氨的生成情况没有明显影响。但当氨浓度大于5 mmol/L时,随着氨浓度的升高,抗体融合蛋白的唾液酸化程度和半乳糖化程度均不断降低,而岩藻糖基化程度和高甘露糖糖型比例则没有变化。当氨浓度升高至大于9 mmol/L后,抗体融合蛋白的表达能力和最终表达量开始降低。因此,应在细胞培养工艺过程开发时控制氨的生成至小于5 mmol/L,以避免氨的累积导致产物的半乳糖化和唾液酸化程度降低以及产物表达量下降。     

用填充床生物反应器连续灌流培养CHO细胞生产HBsAg

为了获得重组CHO细胞持续高效表达HBsAg的最佳条件 ,应用填充床生物反应器和聚酯片 ,连续灌流培养分泌HBsAg的重组CHO细胞 ,考察灌流培养基中葡萄糖浓度对细胞代谢和HBsAg生产的影响。连续培养 60天 ,细胞密度可达 5 0× 1 0 6 ml。灌流培养液中葡萄糖浓度从5 0g L增加到 7 6g L时 ,葡萄糖消耗速率和乳酸浓度均随之上升。当葡萄糖浓度继续增加至9 3g L时 ,葡萄糖消耗速率和乳酸浓度呈下降趋势 ;当将葡萄糖浓度降回至 7 6g L后又开始回升。培养过程中最高抗原滴度达 1∶5 1 2 ,出现在以含 5 0g L葡萄糖的培养液灌流阶段的末期 ,即第 2 6天 ,维持 1 0天左右即迅速下降至 1∶1 2 8水平。共收液 335L ,纯化后获得抗原蛋白2 1 3 0 4mg ,平均产率为 635 94μg L ,较传统转瓶工艺 ( 4 1 4μg L)提高 5 3 6%。表明CHO细胞较长时间处于高乳酸水平下 ( >30mmol L)会严重影响产物的表达 ,应控制灌流培养液中的葡萄糖浓度在较低水平 ,或通过适当提高灌流速率使培养基中乳酸水平维持在较低水平 ,从而有利于HBsAg的高效稳定表达     

高浓度葡萄糖对昆明小鼠早期胚胎发育的影响

建立昆明小鼠受孕模型,分离并体外培养胚胎细胞.检测了各培养浓度下的细胞增殖、分化与凋亡.胚胎细胞在0.2mmol/L和5.56mmol/L葡萄糖浓度的KSOM培养基中能正常发育和孵化;而在浓度为15.56mmol/L和25.56mmol/L葡萄糖培养基中胚胎发育和孵化均受到损害(P<0.005),且总细胞数和内细胞团细胞数也明显减少(P<0.01),但其细胞凋亡率与0.2mmol/L和5.56mmol/L葡萄糖浓度下胚胎细胞凋亡率无显著性差异(P>0.05).随着葡萄糖浓度的增高,胚泡总的表面积无明显变化,但胚胎细胞密度呈增加趋势.高血糖对早期胚胎的发育具有毒性作用,提示高糖可能导致妊娠合并糖尿病患者的流产和胎儿畸形率升高.     

重组CHO-GS细胞降低氨毒副作用的代谢研究

在重组CHOGS细胞无血清批培养过程中,由于GS系统的引入,使氨对细胞的毒副作用显著降低,从而引起细胞生长和代谢途径发生变化。当起始氨浓度为1.42mmolL时,细胞最高密度可达到15.6×105cellsmL,随着氨浓度的增加,尽管细胞生长受到一定的抑制,但在氨浓度为12.65mmolL时,细胞密度仍可达到8.9×105cellsmL。当起始氨浓度从0.36mmolL增加到12.65mmolL时,细胞对葡萄糖的得率系数和乳酸对葡萄糖的得率系数降低,己糖激酶(HK)、丙酮酸激酶(PK)和乳酸脱氢酶(LDH)酶活分别提高了43%、140%和25%,表明细胞对葡萄糖的利用增加,糖代谢更倾向于高能量生成途径。在谷氨酰胺代谢途径中,氨促进了谷丙转氨酶(GPT)酶活,谷氨酸到α酮戊二酸的转化逐渐倾向于谷丙转氨途径,谷氨酸脱氢酶(GDH)酶活降低,脱氨途径相应受到抑制。此外,氨浓度的增加使细胞群体处于G0G1期的比例逐渐升高,当氨浓度为12.65mmolL时,重组蛋白比生产速率比氨浓度为0.36mmolL时提高了2.1倍。     

CHO工程细胞无血清悬浮分批培养的生长代谢特征及动力学模型

以悬浮适应的表达尿激酶原CHO工程细胞为研究对象,在100mL的摇瓶中进行无血清悬浮培养,以细胞密度、细胞活力、Pro-UK活性、葡萄糖比消耗速率(qglc)、乳酸比生产速率(qlac)、乳酸对葡萄糖的得率系数(Ylac/glc)为观察指标,同时以细胞有血清悬浮培养作为参照,考察CHO工程细胞无血清悬浮培养生长和代谢特征。观察结果表明,CHO工程细胞在无血清及有血清悬浮培养条件下表现为大致相似的细胞生长和代谢特征。在此基础上,依据实际检测的数据,应用MATLAB软件对细胞对数生长期的细胞生长、乳酸生成及葡萄糖消耗的模型参数进行非线性规划,获得全局性收敛的最优参数估计值,建立了细胞在无血清培养条件下的生长及代谢动力学模型。     

高糖和氮源对鼠李糖乳杆菌(Lactobacillus rhamnosus)L-乳酸发酵的影响

鼠李糖乳杆菌经实验室耐高糖高酸选育,能够在高糖浓度下高效高产L-乳酸。以酵母粉为氮源和生长因子,葡萄糖初始浓度分别为120 g/L和146 g/L,摇瓶培养120h,L-乳酸产量分别为104g/L和117.5g/L,L-乳酸得率分别为86.7%和80.5%。高葡萄糖浓度对菌的生长和乳酸发酵有一定的抑制。增加接种量,在高糖浓度发酵条件下,可以缩短发酵时间,但对增加乳酸产量效果不明显。乳酸浓度对鼠李糖乳杆菌生长和产酸有显著的影响。初始乳酸浓度到达70g/L以上时,鼠李糖乳杆菌基本不生长和产酸,葡萄糖消耗也被抑制。酵母粉是鼠李糖乳杆菌的优良氮源,使用其它被测试的氮源菌体生长和产酸都有一定程度的下降。用廉价的黄豆粉并补充微量维生素液,替代培养基中的酵母粉,可以使产酸浓度和碳源得率得以基本维持。     

丁酸钠和丙酸钠对工程CHO细胞生长代谢和嵌合抗体表达的影响

抗p185erbB-2基因工程抗体是一种有潜力的抗肿瘤药物。以稳定表达抗p185嵌合抗体的重组工程CHO细胞株为对象,分别用不同浓度丁酸钠(0~2mmol/L)和丙酸钠(0~10mmol/L)对处在对数生长期的细胞进行处理,在连续5d的培养过程中,每隔24h取样测活细胞数量,并用ELISA检测上清中抗体含量,5d后结束培养用FACS检测细胞周期。同时还用丁酸钠和丙酸钠处理长至90%满度的细胞,然后每隔12h取样一次检测葡萄糖和乳酸的含量。结果表明丁酸钠和丙酸钠可以有效地提高嵌合抗体在工程CHO细胞中的表达,表达量最高时可达58.3~59.6mg/L,是对照组的1.5倍。同时抑制细胞生长和阻断细胞周期在G1期,并且可减少培养过程中葡萄糖的消耗和乳酸的生成。和丁酸钠相比,丙酸钠具有较小的细胞毒性,是一种有潜力的替代品。     

INS-1E细胞葡萄糖毒性模型的建立

目的:建立胰岛细胞系INS-1E细胞的葡萄糖毒性模型。方法:将INS-1E细胞分别在不同葡萄糖浓度(5.5 mmol/L、16.7mmol/L、25 mmol/L、30 mmol/L)的1640完全培养基中培养不同时间(48 h、72 h、96 h、120 h),分别在不同时间点取细胞进行细胞功能检测,实时荧光定量PCR法检测胰岛素m RNA的表达,ELISA检测葡萄糖刺激的胰岛素的分泌。结果:与对照组相比,高糖浓度(5.5 mmol/L、16.7 mmol/L、25 mmol/L、30 mmol/L)培养基中培养48 h后,INS-1E细胞的胰岛素合成和分泌的功能均增加(P均0.05),随着培养基中葡萄糖浓度的升高以及培养时间的延长,INS-1E细胞胰岛素合成及分泌的功能逐渐下降,当在葡萄糖浓度为30 mmol/L的培养基中培养120 h后,胰岛素m RNA合成及葡萄糖刺激的胰岛素分泌均显著降低(P均0.01)。结论:INS-1E细胞在30 m M的葡萄糖中培养120 h形成稳定的葡萄糖毒性模型。     

有机碳源和氮源对三角褐指藻生长的影响

研究了8种有机碳源和4种氮源对三角褐指藻(Phaeodactylum tricornutum)生长的影响.结果表明,三角褐指藻具有兼养生长的能力,碳浓度为5mmol/L和50mmol/L时,葡萄糖、果糖、乙酸钠和甘油对其生长有明显的促进作用,乳酸钠和乙醇抑制藻细胞生长,半乳糖和柠檬酸钠对其生长随有机碳浓度而异.甘油、葡萄糖和乙酸钠的适宜浓度范围分别为5 -800mmol/L、100 -400mmol/L和50 -300mmol/L.培养液中分别加入50mmol/L甘油、400mmol/L葡萄糖和150mmol/L乙酸钠,培养第14天,三角褐指藻的最大生物量分别为对照的1.45倍、1.25倍和1.11倍.甘油兼养生长的最优氮源是尿素,适宜浓度范围为0.88-8.8mmol/L.当尿素浓度为4.4mmol/L时,最高生物量可达1.31g/L.     

谷氨酰胺对微囊化重组CHO细胞生长代谢及内皮抑素表达的影响

微囊化技术是一种有发展潜力的生物技术,在细胞移植和药物控释等方面具有广泛的应用。然而由于目前微囊化细胞规模化培养技术还不成熟,阻碍了其在临床治疗中的推广与应用。为了了解微囊化重组CHO细胞的生长代谢特性为今后规模化培养优化提供技术参考,考察了主要氮源物质谷氨酰胺对微囊化重组CHO细胞生长代谢及内皮抑素表达的影响。结果显示:当谷氨酰胺起始浓度从2.69mmolL增加到9.05mmolL时最大活细胞密度并没有增高,细胞增殖没有显著差异。当谷氨酰胺起始浓度较低(2.69mmolL)时,葡萄糖的比消耗速率较大;当谷氨酰胺起始浓度增高时(7.91mmolL～9.05mmolL)葡萄糖和谷氨酰胺的比消耗速率增大,但细胞对葡萄糖和谷氨酰胺的利用率降低。谷氨酰胺对产物表达有显著影响,起始浓度为4.97mmolL时的内皮抑素累积浓度最高,达546.36ngmL,过低和过高谷氨酰胺起始浓度下内皮抑素的累积浓度均较低。     

丁酸钠对CHO-EPO工程细胞株rhEPO表达量的影响

以稳定整合有ｐＥＤＥＰＯ的ＣＨＯＥＰＯ工程细胞株为研究对象,在无血清条件下,系统观察了０５、１０、２５和５０ｍｍｏｌ／Ｌ４个浓度的丁酸钠作用于该细胞株的情况,结果表明：丁酸钠对ＣＨＯＥＰＯ工程细胞的生长有明显的抑制作用;影响ＣＨＯＥＰＯ工程细胞ＥＰＯ表达,浓度１０ｍｍｏｌ／Ｌ可提高ＥＰＯ表达量２５倍左右,并可持续较长的一段时间;延缓ＣＨＯＥＰＯ工程细胞在无血清培养时的细胞脱落;提高ＣＨＯＥＰＯ工程细胞ＥＰＯｍＲＮＡ水平     

Increased t-PA yields using ultrafiltration of an inhibitory product from CHO fed-batch culture

Fed-batch operation for the production of t-PA using Chinese Hamster Ovary (CHO) cells was optimized using serial and parallel experimentation. The feed, an isotonic concentrate, was improved to obtain 2- to 2.5-fold increases in integrated viable cell days versus batch. With a low glucose inoculum train, the viability index was further increased up to 4.5-fold. Hydrolysates were substituted for the amino acid portion of the concentrate with no significant change in fed-batch results. The concentrate addition rate was based on a constant 4 pmol/cell.day glucose uptake rate that maintained a relatively constant glucose concentration (approximately 3 mM). Increased viable cell indices did not lead to concomitant increases in t-PA concentrations compared to batch. The fed-batch concentrate and feeding strategy were shown to be effective in hybridoma culture, where a 4-fold increase in viable cell index yielded a 4-fold increase in antibody concentration. The half-life of t-PA decreased from 43 to 15 days with decreasing cell viability (from 92% to 71%), but this was not sufficient to explain the apparent t-PA threshold. Instead, the CHO results were explained by a reduction in t-PA production at higher extracellular t-PA concentrations that limited the fed-batch maximum at 35 mg/L for the cell line investigated. Analysis of both the total and t-PA mRNA levels revealed no response to increasing extracellular t-PA concentrations upon exogenous additions. Instead, intracellular t-PA levels were increased, revealing a possible secretory pathway limitation. A new reactor configuration was developed using an acoustic filter to retain the cells in the reactor while an ultrafiltration module stripped t-PA from the clarified medium before the permeate was returned to the reactor. By adding this harvesting step, the t-PA fed-batch production was increased over 2-fold, up to a yield of 80 mg/L.     

Muscle glycogen resynthesis during recovery from cycle exercise: no effect of additional protein ingestion.

In the present study, we have investigated the effect of carbohydrate and protein hydrolysate ingestion on muscle glycogen resynthesis during 4 h of recovery from intense cycle exercise. Five volunteers were studied during recovery while they ingested, immediately after exercise, a 600-ml bolus and then every 15 min a 150-ml bolus containing 1) 1.67 g. kg body wt(-1). l(-1) of sucrose and 0.5 g. kg body wt(-1). l(-1) of a whey protein hydrolysate (CHO/protein), 2) 1.67 g. kg body wt(-1). l(-1) of sucrose (CHO), and 3) water. CHO/protein and CHO ingestion caused an increased arterial glucose concentration compared with water ingestion during 4 h of recovery. With CHO ingestion, glucose concentration was 1-1.5 mmol/l higher during the first hour of recovery compared with CHO/protein ingestion. Leg glucose uptake was initially 0.7 mmol/min with water ingestion and decreased gradually with no measurable glucose uptake observed at 3 h of recovery. Leg glucose uptake was rather constant at 0.9 mmol/min with CHO/protein and CHO ingestion, and insulin levels were stable at 70, 45, and 5 mU/l for CHO/protein, CHO, and water ingestion, respectively. Glycogen resynthesis rates were 52 +/- 7, 48 +/- 5, and 18 +/- 6 for the first 1.5 h of recovery and decreased to 30 +/- 6, 36 +/- 3, and 8 +/- 6 mmol. kg dry muscle(-1). h(-1) between 1.5 and 4 h for CHO/protein, CHO, and water ingestion, respectively. No differences could be observed between CHO/protein and CHO ingestion ingestion. It is concluded that coingestion of carbohydrate and protein, compared with ingestion of carbohydrate alone, did not increase leg glucose uptake or glycogen resynthesis rate further when carbohydrate was ingested in sufficient amounts every 15 min to induce an optimal rate of glycogen resynthesis.     

Diel variations in plasma glucose concentrations of Malachite Sunbirds Nectarinia famosa

Plasma glucose concentrations in birds are much higher than those in mammals of similar body mass, and they are thought to be kept more or less constant. We investigated plasma glucose concentrations of Malachite Sunbirds (Nectarinia famosa) to determine whether there was a circadian rhythm in plasma glucose and whether plasma glucose concentrations rose at lower temperatures. We explored the possibility that glycogenolysis and gluconeogenesis might be used by birds before daylight to generate body heat during arousal from torpor or from overnight adaptive heterothermy. Plasma glucose concentration of Malachite Sunbirds were relatively high, between 13.6 and 21.4 mmol/L. Plasma glucose concentrations were higher at 5°C than at 25°C, and generally lower during the scotophase, particularly in the early hours of the morning. Therefore, it appears that Malachite Sunbirds are not increasing plasma glucose concentrations during arousal from torpor or to increase scotophase body temperature levels to photophase levels. It is apparent that these nectarivorous birds have a circadian variation in plasma glucose concentrations that is affected by ambient temperature and feeding patterns.     

Influence of reducing agents on the secretion rate of recombinant erythropoietin from CHO cells

The specific secretion rate of recombinant erythropoietin (EPO) from Chinese Hamster Ovary (CHO) cells was increased by reducing agents. Addition of 5 mM cysteamine to serum free medium led to almost 8-fold increase of specific EPO secretion rate although it was not effective in thiol free medium. Each reducing agent has its own optimal concentration for maximizing the EPO secretion from CHO cells.     

谷氨酰胺和天冬酰胺对CHO细胞生长、代谢及抗体表达的影响

以离心换液的批培养为例,通过设计谷氨酰胺和天冬酰胺不同的添加方式来考察两者对CHO细胞生长,代谢及产物表达的影响。结果表明：基础培养基中谷氨酰胺和天冬酰胺不能简单地相互替换,缺失谷氨酰胺或天冬酰胺的基础培养基均不能支持dhfr-CHO细胞的正常生长和产物表达,仅谷氨酰胺和天冬酰胺的浓度同时达到4mmol/L,才能满足细胞生长所需。另外,代谢副产物氨的生成仅与谷氨酰胺和天冬酰胺的加和线性相关,与两者添加比例无关。但适当提高天冬酰胺与谷氨酰胺的比例可提高抗体表达水平,同时减少乳酸的生成。因此,为培养基开发与优化过程中谷氨酰胺和天冬酰胺的添加策略提供了依据,为建立高效的流加培养过程奠定了基础。