Cryopreservation and passaging optimization for Galea spixii (Wagler, 1831) adult skin fibroblast lines: A step forward in species management and genetic studies

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-07-26 DOI:10.1016/j.acthis.2024.152185

Leonardo Vitorino Costa de Aquino , Samara Lima Olindo , Yara Letícia Frutuoso e Silva , Lhara Ricarliany Medeiros de Oliveira , Yasmin Beatriz França Moura , Ana Lívia Rocha Rodrigues , Érika Almeida Praxedes , Moacir Franco de Oliveira , Alexandre Rodrigues Silva , Alexsandra Fernandes Pereira

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引用次数: 0

Abstract

Background

In vitro culture of fibroblasts is a technique based on cell isolation, physiological characterization, and cryopreservation. This technique has not been described for Galea spixii, therefore, it can be used to learn about its cellular biology and genetic diversity.

Objective

We established fibroblast lines of six G. spixii individuals from several passages (second, fifth, eighth, and tenth) and cryopreserved them.

Methods

Fibroblasts recovered from skin biopsies were identified based on morphology, immunocytochemistry, and karyotyping. The cells were analyzed for morphology, ultrastructure, viability, proliferation, metabolism, oxidative stress, bioenergetic potential, and apoptosis before and after cryopreservation.

Results

After the eighth passage, the fibroblasts showed morphological and karyotypic changes, although their viability, metabolism, and proliferation did not change. An increase in oxidative stress and bioenergetic potential from the fifth to the eighth passages were also observed. Post cryopreservation, cell damage with respect to the ultrastructure, viability, proliferative rate, apoptotic levels, oxidative stress, and bioenergetic potential were verified.

Conclusion

Fibroblasts up to the tenth passage could be cultured in vitro. However, cells at the fifth passage were of better quality to be used for reproductive techniques. Additionally, optimization of the cryopreservation protocol is essential to improve the physiological parameters of these cells.

查看原文本刊更多论文

Galea spixii (Wagler, 1831) 成体皮肤成纤维细胞系的低温保存和传代优化：在物种管理和基因研究方面向前迈进了一步。

背景：成纤维细胞体外培养是一种基于细胞分离、生理特征描述和冷冻保存的技术。这种技术尚未用于 Galea spixii，因此可用于了解其细胞生物学和遗传多样性：我们从六个 G. spixii 个体的多个传代（第二、第五、第八和第十个传代）中建立了成纤维细胞系，并对其进行了冷冻保存：方法：根据形态学、免疫细胞化学和核型鉴定从皮肤活检中提取的成纤维细胞。对细胞冷冻前后的形态、超微结构、活力、增殖、新陈代谢、氧化应激、生物能潜能和细胞凋亡进行分析：结果：经过第八次冷冻后，成纤维细胞的活力、新陈代谢和增殖没有发生变化，但形态和核型发生了变化。此外，还观察到从第五次传代到第八次传代，氧化应激和生物能潜能有所增加。冷冻保存后，细胞的超微结构、存活率、增殖率、凋亡水平、氧化应激和生物能潜能方面的损伤得到了验证：结论：可在体外培养成纤维细胞至第 10 个阶段。结论：可在体外培养长达第十个生长期的成纤维细胞，但第五个生长期的细胞质量更好，可用于繁殖技术。此外，优化冷冻保存方案对改善这些细胞的生理参数至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464