Department of Microbiology, University of Manitoba, Winnipeg, R3T 2N2, Canada.
Cytotechnology. 1999 Jul;30(1-3):27-36. doi: 10.1023/A:1008048126055.
The murine hybridoma (CC9C10) was subjected to high shear rates in a spinner flask to determine the effect of various culture additives on cell survival. At 500 rpm, the half-life of the viable cell concentration in a low protein serum-free medium was 50 min. Both bovine serum albumin and Pluronic F-68 had a significant effect in protecting cells under these conditions. The effects of the two supplements were additive, so that in the presence of both supplements there was minimal cell damage at 500 rpm. The survival rate of cells grown in media supplemented with linoleic acid improved significantly under high stirring rates. Cells grown for one passage in 50 muM linoleic acid and stirred at 500 rpm had a significantly higher survival rate than control cells. For cells grown over 5 passages in 25 muM linoleic acid, the survival rate at 470 rpm was x3 greater than that determined for control cells. This difference gradually decreased at higher stirring rates up to 610 rpm when the half-life of the viable cell population was reduced to approximately 10 min. Supplementation of cultures with linoleic acid has previously been shown to result in incorporation into all three cellular lipid fractions - polar, non-polar and free fatty acid (Butler et al., 1997). Our explanation for the increased survivability of the cells at high agitation rates in the presence of linoleic acid is that the structural lipid components of the cell including the outer membrane attained a higher unsaturated/saturated ratio which was more robust than that of control cells.
将杂交瘤(CC9C10)置于摇瓶中进行高剪切率处理,以确定各种培养添加剂对细胞存活的影响。在 500rpm 下,低蛋白无血清培养基中活细胞浓度的半衰期为 50 分钟。牛血清白蛋白和 Pluronic F-68 均能显著保护细胞在此条件下。这两种补充剂的作用具有加性,因此在存在这两种补充剂的情况下,在 500rpm 下细胞损伤最小。在高搅拌速率下,补充亚油酸的培养基中细胞的存活率显著提高。在 50 μM 亚油酸中生长并在 500rpm 下搅拌的细胞与对照细胞相比,存活率显著提高。对于在 25 μM 亚油酸中生长超过 5 代的细胞,在 470rpm 下的存活率是对照细胞的 x3 倍。在更高的搅拌速率下,这种差异逐渐减小,当活细胞群体的半衰期降至约 10 分钟时,达到 610rpm。先前已经表明,向培养物中补充亚油酸会导致其掺入所有三种细胞脂质部分 - 极性、非极性和游离脂肪酸(Butler 等人,1997 年)。我们对细胞在存在亚油酸的高搅拌速率下的生存能力增加的解释是,包括外膜在内的细胞的结构脂质成分的不饱和/饱和比更高,比对照细胞更健壮。