高效分离和 3D 打印培养肉用成纤维细胞

Ruoqing Yang, Zhuocheng Fei, Luyi Wang, Haohao Tang, Wanqiang Sun, Mei Li, Qingzi Lei, Jian Chen, Xin Guan
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引用次数: 1

摘要

成纤维细胞是肌肉和皮肤等动物组织的重要组成部分,因为它们是各种基质蛋白的主要生产者。胶原蛋白等基质蛋白在肉类产品中发挥着重要作用,可提供独特的营养、口感和风味。培养肉是一种通过培养动物细胞生产的创新肉类替代品,但目前使用成纤维细胞作为种子细胞生产培养肉的研究相对较少。在这项工作中,我们首先开发了一种创新的消化摩擦法,可高效、低成本地从猪皮中分离成纤维细胞。在优化酶解和物理摩擦条件后,从 1 平方厘米的猪皮肤组织中获得了 2.39 ± 0.28 × 105 个成纤维细胞,是传统组织外植法的 9 倍。此外,我们还发现了一种由明胶和壳聚糖组成的可食用生物墨水,这种墨水具有良好的印刷性能,并能支持成纤维细胞的粘附和生长。此外,我们通过三维打印技术制作了基于成纤维细胞的培养肉,初始细胞密度为 1.0 × 107 mL-1,并对其质地和营养特性进行了评估。这项工作为将成纤维细胞引入培养肉的生产中提供了宝贵的见解和参考,使其更接近于结构化的动物肉。
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Highly efficient isolation and 3D printing of fibroblasts for cultured meat production
Fibroblasts are important components of animal tissues such as muscle and skin, as they are the major producers of various matrix proteins. Matrix proteins such as collagen play an important role in meat products by providing unique nutrition, texture, and flavor. Cultured meat is an innovative meat alternative produced by culturing animal cells, but currently, relatively few studies have been conducted using fibroblasts as seed cells for cultured meat manufacturing. In this work, we first developed an innovative digestion-friction method for isolating fibroblasts from porcine skin efficiently and cost-effectively. After optimizing the enzymatic digestion and physical friction conditions, 2.39 ± 0.28 × 105 fibroblasts were obtained from 1 cm2 of porcine skin tissue, which was about 9 times higher than the conventional tissue explant method. In addition, we identified an edible bio-ink composed of gelatin and chitosan that has good printing properties and supports fibroblast adhesion and growth. Furthermore, we fabricated fibroblast-based cultured meat by 3D printing with an initial cell density of 1.0 × 107 mL−1 and evaluated its texture and nutritional properties. This work provides valuable insights and references for introducing fibroblasts into the production of cultured meat that is more comparable to structured animal meat.
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