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Laminin as a Key Extracellular Matrix for Proliferation, Differentiation, and Maturation of Porcine Muscle Stem Cell Cultivation

Cited 1 time in Web of Science Cited 1 time in Scopus
Authors

Kim, Minsu; Jung, Hyun Young; Kim, Beomjun; Jo, Cheorun

Issue Date
2024-05
Publisher
Korean Society for Food Science of Animal Resources
Citation
Food Science of Animal Resources, Vol.44 No.3, pp.710-722
Abstract
Extracellular matrix (ECM) proteins play a crucial role in culture muscle stem cells (MuSCs). However, there is a lack of extensive research on how each of these proteins influences proliferation and differentiation of MuSCs from livestock animals. Therefore, we investigated the effects of various ECM coatings—collagen, fibronectin, gelatin, and laminin—on the proliferation, differentiation, and maturation of porcine MuSCs. Porcine MuSCs, isolated from 14-day-old Berkshire piglets, were cultured on ECM-coated plates, undergoing three days of proliferation followed by three days of differentiation. MuSCs on laminin showed higher proliferation rate than others (p < 0.05). There was no significant difference in the mRNA expression levels of PAX7, MYF5, and MYOD among MuSCs on laminin, collagen, and fibronectin (p > 0.05). During the differentiation period, MuSCs cultured on laminin exhibited a significantly higher differentiation rate, resulting in thicker myotubes compared to those on other ECMs (p < 0.05). Also, MuSCs on laminin showed higher expression of mRNA related with maturated muscle fiber such as MYH1 and MYH4 corresponding to muscle fiber type IIx and muscle fiber type IIb, respectively, compared with MuSCs on other ECM coatings (p < 0.05). In summary, our comparison of ECMs revealed that laminin significantly enhances MuSC proliferation and differentiation, outperforming other ECMs. Specifically, muscle fibers cultured on laminin exhibited a more mature phenotype. These findings underscore laminin's potential to advance in vitro muscle research and cultured meat production, highlighting its role in supporting rapid cell proliferation, higher differentiation rates, and the development of mature muscle fibers.
ISSN
2636-0772
URI
https://hdl.handle.net/10371/205067
DOI
https://doi.org/10.5851/kosfa.2024.e27
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  • College of Agriculture and Life Sciences
  • Department of Agricultural Biotechnology
Research Area Analysis, evaluation, and development of quality and process of animal-origin foods, Development of non-thermal process for improvement of safety of animal-origin foods, Understanding of muscle biology and cultured muscle production

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