Muscle-derived fibro-adipogenic progenitor cells for production of cultured bovine adipose tissue

R.G.J. Dohmen; S. Hubalek; J. Melke; T. Messmer; F. Cantoni; A. Mei; R. Hueber; R. Mitic; D. Remmers; P. Moutsatsou; M.J. Post; L. Jackisch; J.E. Flack

doi:10.1038/s41538-021-00122-2

Muscle-derived fibro-adipogenic progenitor cells for production of cultured bovine adipose tissue

R.G.J. Dohmen, S. Hubalek, J. Melke, T. Messmer, F. Cantoni, A. Mei, R. Hueber, R. Mitic, D. Remmers, P. Moutsatsou, M.J. Post, L. Jackisch^*, J.E. Flack^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Cultured meat is an emergent technology with the potential for significant environmental and animal welfare benefits. Accurate mimicry of traditional meat requires fat tissue; a key contributor to both the flavour and texture of meat. Here, we show that fibro-adipogenic progenitor cells (FAPs) are present in bovine muscle, and are transcriptionally and immunophenotypically distinct from satellite cells. These two cell types can be purified from a single muscle sample using a simple fluorescence-activated cell sorting (FACS) strategy. FAPs demonstrate high levels of adipogenic potential, as measured by gene expression changes and lipid accumulation, and can be proliferated for a large number of population doublings, demonstrating their suitability for a scalable cultured meat production process. Crucially, FAPs reach a mature level of adipogenic differentiation in three-dimensional, edible hydrogels. The resultant tissue accurately mimics traditional beef fat in terms of lipid profile and taste, and FAPs thus represent a promising candidate cell type for the production of cultured fat.

Original language	English
Article number	6
Number of pages	12
Journal	npj Science of Food
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s41538-021-00122-2
Publication status	Published - 24 Jan 2022

Keywords

FATTY-ACID PROFILES
FIBRO/ADIPOGENIC PROGENITORS
REGULATORY CHALLENGES
STEM-CELLS
MEAT
BEEF
DIFFERENTIATION
PALATABILITY
SUPPRESSION
EXPRESSION

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Cite this

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title = "Muscle-derived fibro-adipogenic progenitor cells for production of cultured bovine adipose tissue",

abstract = "Cultured meat is an emergent technology with the potential for significant environmental and animal welfare benefits. Accurate mimicry of traditional meat requires fat tissue; a key contributor to both the flavour and texture of meat. Here, we show that fibro-adipogenic progenitor cells (FAPs) are present in bovine muscle, and are transcriptionally and immunophenotypically distinct from satellite cells. These two cell types can be purified from a single muscle sample using a simple fluorescence-activated cell sorting (FACS) strategy. FAPs demonstrate high levels of adipogenic potential, as measured by gene expression changes and lipid accumulation, and can be proliferated for a large number of population doublings, demonstrating their suitability for a scalable cultured meat production process. Crucially, FAPs reach a mature level of adipogenic differentiation in three-dimensional, edible hydrogels. The resultant tissue accurately mimics traditional beef fat in terms of lipid profile and taste, and FAPs thus represent a promising candidate cell type for the production of cultured fat.",

keywords = "FATTY-ACID PROFILES, FIBRO/ADIPOGENIC PROGENITORS, REGULATORY CHALLENGES, STEM-CELLS, MEAT, BEEF, DIFFERENTIATION, PALATABILITY, SUPPRESSION, EXPRESSION",

author = "R.G.J. Dohmen and S. Hubalek and J. Melke and T. Messmer and F. Cantoni and A. Mei and R. Hueber and R. Mitic and D. Remmers and P. Moutsatsou and M.J. Post and L. Jackisch and J.E. Flack",

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T1 - Muscle-derived fibro-adipogenic progenitor cells for production of cultured bovine adipose tissue

AU - Dohmen, R.G.J.

AU - Hubalek, S.

AU - Melke, J.

AU - Messmer, T.

AU - Cantoni, F.

AU - Mei, A.

AU - Hueber, R.

AU - Mitic, R.

AU - Remmers, D.

AU - Moutsatsou, P.

AU - Post, M.J.

AU - Jackisch, L.

AU - Flack, J.E.

PY - 2022/1/24

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N2 - Cultured meat is an emergent technology with the potential for significant environmental and animal welfare benefits. Accurate mimicry of traditional meat requires fat tissue; a key contributor to both the flavour and texture of meat. Here, we show that fibro-adipogenic progenitor cells (FAPs) are present in bovine muscle, and are transcriptionally and immunophenotypically distinct from satellite cells. These two cell types can be purified from a single muscle sample using a simple fluorescence-activated cell sorting (FACS) strategy. FAPs demonstrate high levels of adipogenic potential, as measured by gene expression changes and lipid accumulation, and can be proliferated for a large number of population doublings, demonstrating their suitability for a scalable cultured meat production process. Crucially, FAPs reach a mature level of adipogenic differentiation in three-dimensional, edible hydrogels. The resultant tissue accurately mimics traditional beef fat in terms of lipid profile and taste, and FAPs thus represent a promising candidate cell type for the production of cultured fat.

AB - Cultured meat is an emergent technology with the potential for significant environmental and animal welfare benefits. Accurate mimicry of traditional meat requires fat tissue; a key contributor to both the flavour and texture of meat. Here, we show that fibro-adipogenic progenitor cells (FAPs) are present in bovine muscle, and are transcriptionally and immunophenotypically distinct from satellite cells. These two cell types can be purified from a single muscle sample using a simple fluorescence-activated cell sorting (FACS) strategy. FAPs demonstrate high levels of adipogenic potential, as measured by gene expression changes and lipid accumulation, and can be proliferated for a large number of population doublings, demonstrating their suitability for a scalable cultured meat production process. Crucially, FAPs reach a mature level of adipogenic differentiation in three-dimensional, edible hydrogels. The resultant tissue accurately mimics traditional beef fat in terms of lipid profile and taste, and FAPs thus represent a promising candidate cell type for the production of cultured fat.

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KW - REGULATORY CHALLENGES

KW - STEM-CELLS

KW - MEAT

KW - BEEF

KW - DIFFERENTIATION

KW - PALATABILITY

KW - SUPPRESSION

KW - EXPRESSION

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