State Key Laboratory of Bioreactor Engineering, East China University of Science and Technology, Postbox 309#, 130 Meilong Road, Shanghai, 200237, People's Republic of China.
Appl Microbiol Biotechnol. 2021 May;105(10):4285-4295. doi: 10.1007/s00253-021-11313-y. Epub 2021 May 15.
Natural killer-92 cells (NK-92 cells) need to be efficiently expanded by serum-free culture in vitro to meet clinical requirements. Fatty acids mainly provide substrates for energy production, which is of crucial importance to meet the energy demands of highly proliferating cells. This study optimized the medium (EM) for NK-92 cells by designing an experiment to expand cells efficiently. EM, an in-house designed chemically defined serum-free medium, was used as the basal medium. Fatty acids as additive ingredients were screened and optimized by the experimental design method. Three additives, arachidonic acid, myristic acid and palmitoleic acid, were screened; therefore, the optimized medium was named EM-FA. The total cell expansion of NK-92 cells in EM-FA was 72.61±11.95-fold on day 8, which was significantly higher than the 28.55±8.67-fold expansion in EM. To explore the mechanism by which fatty acids promote NK-92 cell expansion, the cell growth kinetics and metabolic characteristics in EM-FA were analyzed. The results showed that NK-92 cells in EM-FA were rapidly expanded while maintaining their cell phenotype and cytotoxicity and enhancing the oxygen consumption rate and mitochondrial function. Fatty acids promoted ATP production to elevate the energy flux for better cell expansion. This study developed an expansion strategy of NK-92 cells in vitro to facilitate their clinical application. KEY POINTS: • Arachidonic acid, myristic acid and palmitoleic acid in serum-free medium were optimized by experimental design to enable the rapid expansion of NK-92 cells in vitro. • Fatty acids upregulated oxidative phosphorylation levels and improved the energy metabolism of NK-92 cells.
自然杀伤细胞-92 细胞(NK-92 细胞)需要通过无血清培养在体外进行高效扩增,以满足临床需求。脂肪酸主要为能量产生提供底物,这对于满足高度增殖细胞的能量需求至关重要。本研究通过设计实验来高效扩增细胞,优化了 NK-92 细胞的培养基(EM)。EM 是一种内部设计的化学定义无血清培养基,用作基础培养基。通过实验设计方法筛选和优化脂肪酸作为添加剂成分。筛选出三种添加剂:花生四烯酸、肉豆蔻酸和棕榈油酸,因此优化后的培养基命名为 EM-FA。在第 8 天,NK-92 细胞在 EM-FA 中的总细胞扩增为 72.61±11.95 倍,明显高于 EM 中的 28.55±8.67 倍。为了探讨脂肪酸促进 NK-92 细胞扩增的机制,分析了 EM-FA 中细胞的生长动力学和代谢特性。结果表明,EM-FA 中的 NK-92 细胞在保持细胞表型和细胞毒性的同时快速扩增,并增强了耗氧率和线粒体功能。脂肪酸促进了 ATP 的产生,提高了能量通量,从而更好地促进细胞扩增。本研究开发了一种体外扩增 NK-92 细胞的策略,以促进其临床应用。
通过实验设计优化了无血清培养基中的花生四烯酸、肉豆蔻酸和棕榈油酸,使 NK-92 细胞能够在体外快速扩增。
脂肪酸上调氧化磷酸化水平,改善了 NK-92 细胞的能量代谢。
