从成年牡蛎(Crassostrea madrasensis)中提取细胞进行常规培养的优化方案。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Soumya Balakrishnan, Ambadi Kannan Maliyekkal Sajeevan, Sreevidya Chandrasekharan Parvathi, I. S. Bright Singh, Jayesh Puthumana
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引用次数: 0

摘要

病毒筛选和培养所需的海洋软体动物细胞系是为蓝色经济中的这些动物制定健康管理策略的重要工具。此外,它们对于开发养殖海产品也至关重要。由于没有有效的海洋软体动物细胞系,所有研究都依赖原代细胞培养物。从软体动物中生成原代细胞培养物需要一个合理的方案,但现有的方案往往涉及大量抗生素的使用和净化,这无形中会影响基因表达和细胞健康。本研究提出了一种易于采用、节省时间的方案,即使用未经净化的软体动物 Crassostrea madrasensis,只需进行初始抗生素处理,并尽量减少细胞培养基中的抗生素接触或不使用抗生素。该方案的重要实验考虑因素已经阐明。因此,选择次氯酸钠和硫酸新霉素对组织进行消毒。该研究首次使用虾细胞培养基(SCCM)作为软体动物细胞培养的细胞培养基。尽管牡蛎是渗透变形动物,但其细胞内渗透条件和 pH 值稳定,在体外培养时可促进心肌细胞的有效形成。使用 10%的胎牛血清(FBS)可提高细胞活力,但使用不含 FBS 的 SCCM 也能获得健康的细胞培养。优化后的培养条件可使心肌细胞集群有规律地跳动,并可保留一个月。如 BrdU 检测所示,细胞增殖有限,需要进一步干预,如生产诱导多能干细胞。优化的方案和培养条件也符合从海洋软体动物中生产培养肉的一些要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An optimized protocol for routine development of cell culture from adult oyster, Crassostrea madrasensis

Marine molluscan cell lines, required for virus screening and cultivation, form essential tools for developing health management strategies for these animals in the blue economy. Moreover, they are also crucial to develop cultivated seafood. As there is no valid marine molluscan cell line, primary cell cultures are relied upon for all investigations. A sound protocol for generating primary cell cultures from molluscs is entailed, but existing protocols often involve heavy antibiotic usage and depuration that invariably affect gene expression and cell health. This work presents an easy-to-adopt, time-saving protocol using non-depurated mollusc Crassostrea madrasensis, which requires only initial antibiotic treatment and minimal exposure or no use of antibiotics in the cell culture medium. The important experimental considerations for arriving at this protocol have been elucidated. Accordingly, sodium hypochlorite and neomycin sulfate were chosen for disinfecting tissues. The study is the first to use shrimp cell culture medium (SCCM) as a cell culture medium for molluscan cell culture. Despite being osmoconformers, the oysters exhibited stable intracellular osmotic conditions and pH, which, when provided in vitro, promoted effective cardiomyocyte formation. The cell viability could be enhanced using 10% fetal bovine serum (FBS), but healthy cell culture could also be obtained using SCCM without FBS. The optimized culture conditions allowed for regular beating cardiomyocyte clusters that could be retained for a month. Limited cell proliferation, as shown by the BrdU assay, demands further interventions, such as possibly producing induced pluripotent stem cells. The optimized protocol and culture conditions also align with some requirements for producing cultivated meat from marine molluscs.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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