用于养殖海产品的真鲷（Pagrus major）肌肉卫星细胞系的建立与特性分析：着重于血清减少和微载体扩增

Development and characterization of red seabream (Pagrus major) muscle satellite cell lines for cultivated seafood: highlighting serum reduction and microcarrier expansion.

作者信息

Ulagesan Selvakumari, Krishnan Sathish, Nam Taek-Jeong, Choi Youn-Hee

机构信息

Division of Fisheries Life Sciences, Pukyong National University, Nam-Gu, Busan, 48513, Republic of Korea.

Institute of Fisheries Sciences, Pukyong National University, Gijang-Gun, Busan, 46041, Republic of Korea.

出版信息

In Vitro Cell Dev Biol Anim. 2025 May 23. doi: 10.1007/s11626-025-01045-y.

DOI:10.1007/s11626-025-01045-y

PMID:40410641

Abstract

Cellular aquaculture requires well-characterized marine cell lines for sustainable seafood production. This study developed muscle satellite cell lines from red seabream (Pagrus major) (PMMSC) to support cultured seafood production. Primary cells, isolated via collagenase digestion (2.61 × 10 cells/mL), were cultured in L- 15 medium under varying FBS levels (10-20%) and temperatures (20-28 °C). Optimal growth occurred at 24 °C with 10% FBS, forming dense monolayers by day 9. Differentiation into myotubes, induced with 2% horse serum, was confirmed by myogenic protein expression (Pax7, MYH, MyoD, MyoG, Desmin) over 12 d. PMMSC proliferation was evaluated under reduced-serum conditions supplemented with Spirulina platensis extract, an algae-derived alternative to fetal bovine serum. The algae extract improved cell proliferation, demonstrating its potential for sustainable seafood production. Additionally, 3D cell expansion using gelatin microcarriers in a bioreactor resulted in an 8.18-fold increase in cell count, showcasing its potential for scalable production. This research provides a valuable resource for the cellular aquaculture field by establishing a well-characterized red seabream muscle satellite cell line and demonstrating the potential of algae-based serum replacements.

摘要

细胞水产养殖需要特性明确的海洋细胞系来实现可持续的海产品生产。本研究从真鲷（Pagrus major）中建立了肌肉卫星细胞系（PMMSC），以支持养殖海产品的生产。通过胶原酶消化分离得到的原代细胞（2.61×10个细胞/毫升），在不同胎牛血清水平（10%-20%）和温度（20-28°C）下于L-15培养基中培养。在24°C和10%胎牛血清条件下生长最佳，到第9天形成致密的单层细胞。用2%马血清诱导分化为肌管，通过12天内肌源性蛋白表达（Pax7、MYH、MyoD、MyoG、结蛋白）得以证实。在添加钝顶螺旋藻提取物（一种藻类来源的胎牛血清替代品）的低血清条件下评估PMMSC的增殖。藻类提取物改善了细胞增殖，证明了其在可持续海产品生产中的潜力。此外，在生物反应器中使用明胶微载体进行3D细胞扩增使细胞数量增加了8.18倍，展示了其可扩展生产的潜力。本研究通过建立特性明确的真鲷肌肉卫星细胞系并证明基于藻类的血清替代品的潜力，为细胞水产养殖领域提供了宝贵资源。

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用于养殖海产品的真鲷（Pagrus major）肌肉卫星细胞系的建立与特性分析：着重于血清减少和微载体扩增

Development and characterization of red seabream (Pagrus major) muscle satellite cell lines for cultivated seafood: highlighting serum reduction and microcarrier expansion.

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