Ala-Cys-Cys-Ala 二肽二聚体可缓解培养基配方中半胱氨酸和胱氨酸含量的问题,并促进 CHO 细胞的生长和新陈代谢。

IF 6.8 1区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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引用次数: 0

摘要

半胱氨酸和胱氨酸是存在于哺乳动物细胞培养物中的必需氨基酸。虽然半胱氨酸有助于生物质合成、重组蛋白生产和抗氧化防御机制,但由于其稳定性差并会氧化成半胱氨酸二聚体--胱氨酸,因此对培养基配方构成了重大挑战。由于其溶解性差,胱氨酸会导致饲料培养基沉淀,形成不良产物,从而降低半胱氨酸的生物利用率。本研究评估了一种高溶解度的半胱氨酸二肽二聚体--Ala-Cys-Cys-Ala(ACCA),将其作为 CHO 细胞培养物中半胱氨酸和胱氨酸的合适替代物。用 ACCA 替代基础培养基中的半胱氨酸和胱氨酸并不能维持细胞生长。然而,在含有半胱氨酸和胱氨酸的基础培养基中分别添加 4 mM 和 8 mM 的 ACCA 后,CHO-GS 和 CHO-K1 批次细胞培养物中的细胞生长率分别提高了 15% 和 27%,IgG 滴度也相应提高。13C 代谢通量分析表明,补充 ACCA 可使糖酵解通量降低 20%,从而提高 CHO-K1 细胞葡萄糖代谢的效率。在饲料批量培养中,ACCA 能够替代饲料培养基中的半胱氨酸和胱氨酸。此外,在基础培养基中补充高浓度的 ACCA 后,无需在饲料培养基中添加任何半胱氨酸等价物,并提高了喂养批次培养中的细胞密度和存活率,而不会对 IgG 电荷变异产生任何显著影响。综上所述,这项研究证明了 ACCA 在改善 CHO 细胞生长、生产率和新陈代谢方面的潜力,同时也促进了半胱氨酸和无半胱氨酸饲料培养基的配制。这种半胱氨酸和胱氨酸的替代品将提高培养细胞的密度,延长高浓度饲用培养基的储存时间,从而为强化生物生产工艺铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ala-Cys-Cys-Ala dipeptide dimer alleviates problematic cysteine and cystine levels in media formulations and enhances CHO cell growth and metabolism

Cysteine and cystine are essential amino acids present in mammalian cell cultures. While contributing to biomass synthesis, recombinant protein production, and antioxidant defense mechanisms, cysteine poses a major challenge in media formulations owing to its poor stability and oxidation to cystine, a cysteine dimer. Due to its poor solubility, cystine can cause precipitation of feed media, formation of undesired products, and consequently, reduce cysteine bioavailability. In this study, a highly soluble cysteine containing dipeptide dimer, Ala-Cys-Cys-Ala (ACCA), was evaluated as a suitable alternative to cysteine and cystine in CHO cell cultures. Replacing cysteine and cystine in basal medium with ACCA did not sustain cell growth. However, addition of ACCA at 4 mM and 8 mM to basal medium containing cysteine and cystine boosted cell growth up to 15% and 27% in CHO-GS and CHO–K1 batch cell cultures respectively and led to a proportionate increase in IgG titer. 13C-Metabolic flux analysis revealed that supplementation of ACCA reduced glycolytic fluxes by 20% leading to more efficient glucose metabolism in CHO–K1 cells. In fed-batch cultures, ACCA was able to replace cysteine and cystine in feed medium. Furthermore, supplementation of ACCA at high concentrations in basal medium eliminated the need for any cysteine equivalents in feed medium and increased cell densities and viabilities in fed-batch cultures without any significant impact on IgG charge variants. Taken together, this study demonstrates the potential of ACCA to improve CHO cell growth, productivity, and metabolism while also facilitating the formulation of cysteine- and cystine-free feed media. Such alternatives to cysteine and cystine will pave the way for enhanced biomanufacturing by increasing cell densities in culture and extending the storage of highly concentrated feed media as part of achieving intensified bioproduction processes.

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来源期刊
Metabolic engineering
Metabolic engineering 工程技术-生物工程与应用微生物
CiteScore
15.60
自引率
6.00%
发文量
140
审稿时长
44 days
期刊介绍: Metabolic Engineering (MBE) is a journal that focuses on publishing original research papers on the directed modulation of metabolic pathways for metabolite overproduction or the enhancement of cellular properties. It welcomes papers that describe the engineering of native pathways and the synthesis of heterologous pathways to convert microorganisms into microbial cell factories. The journal covers experimental, computational, and modeling approaches for understanding metabolic pathways and manipulating them through genetic, media, or environmental means. Effective exploration of metabolic pathways necessitates the use of molecular biology and biochemistry methods, as well as engineering techniques for modeling and data analysis. MBE serves as a platform for interdisciplinary research in fields such as biochemistry, molecular biology, applied microbiology, cellular physiology, cellular nutrition in health and disease, and biochemical engineering. The journal publishes various types of papers, including original research papers and review papers. It is indexed and abstracted in databases such as Scopus, Embase, EMBiology, Current Contents - Life Sciences and Clinical Medicine, Science Citation Index, PubMed/Medline, CAS and Biotechnology Citation Index.
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