Engineered autocrine signaling eliminates muscle cell FGF2 requirements for cultured meat production

Andrew J. Stout; Xiaoli Zhang; Sophia M. Letcher; Miriam L. Rittenberg; Michelle Shub; Kristin M. Chai; Maya Kaul; David Kaplan

doi:10.1101/2023.04.17.537163

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Engineered autocrine signaling eliminates muscle cell FGF2 requirements for cultured meat production — Andrew J. Stout (2023) | RDL Network

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Engineered autocrine signaling eliminates muscle cell FGF2 requirements for cultured meat production

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David Kaplan

Engineered autocrine signaling eliminates muscle cell FGF2 requirements for cultured meat production

Preprint 2023 en

Authors

AS
Andrew J. Stout
XZ
Xiaoli Zhang
SL
Sophia M. Letcher

Abstract

1 min read

Cultured meat is a promising technology that faces substantial cost barriers which are currently driven largely by the price of media components. Growth factors such as fibroblast growth factor 2 (FGF2) drive the cost of serum-free media for relevant cells including muscle satellite cells. Here, we engineered immortalized bovine satellite cells (iBSCs) for inducible expression of FGF2 and/or mutated Ras<sup>G12V</sup> in order to overcome media growth factor requirements through autocrine signaling. Engineered cells were able to proliferate over multiple passages in FGF2-free medium, thereby eliminating the need for this costly component. Additionally, cells maintained their myogenicity, albeit with reduced differentiation capacity. Ultimately, this offers a proof-of-principle for lower-cost cultured meat production through cell line engineering.

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Publication Info

DOI: 10.1101/2023.04.17.537163
Year: 2023
Published: —
Language: en

Preprint Details

Link Of The Paper: https://doi.org/10.1101/2023.04.17.537163

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Created:June 19, 2026

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Engineered autocrine signaling eliminates muscle cell FGF2 requirements for cultured meat production

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