The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State

SIMPLE SUMMARY: Evidence of the role of macrophages in promoting cancer progression has prompted scientists to investigate innate immune cell function in order to identify targetable checkpoint for reverting the protumoral functions of macrophages. Primary cultures isolated from mice necessary to in...

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Autores principales: Spera, Iolanda, Sánchez-Rodríguez, Ricardo, Favia, Maria, Menga, Alessio, Venegas, Francisca C., Angioni, Roberta, Munari, Fabio, Lanza, Martina, Campanella, Annalisa, Pierri, Ciro L., Canton, Marcella, Castegna, Alessandra
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8582589/
https://www.ncbi.nlm.nih.gov/pubmed/34771641
http://dx.doi.org/10.3390/cancers13215478
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author Spera, Iolanda
Sánchez-Rodríguez, Ricardo
Favia, Maria
Menga, Alessio
Venegas, Francisca C.
Angioni, Roberta
Munari, Fabio
Lanza, Martina
Campanella, Annalisa
Pierri, Ciro L.
Canton, Marcella
Castegna, Alessandra
author_facet Spera, Iolanda
Sánchez-Rodríguez, Ricardo
Favia, Maria
Menga, Alessio
Venegas, Francisca C.
Angioni, Roberta
Munari, Fabio
Lanza, Martina
Campanella, Annalisa
Pierri, Ciro L.
Canton, Marcella
Castegna, Alessandra
author_sort Spera, Iolanda
collection PubMed
description SIMPLE SUMMARY: Evidence of the role of macrophages in promoting cancer progression has prompted scientists to investigate innate immune cell function in order to identify targetable checkpoint for reverting the protumoral functions of macrophages. Primary cultures isolated from mice necessary to investigate the mechanisms mediating immune cell activation require expensive and time-consuming breeding and housing of mice strains. We obtained an in-house generated immortalized macrophage cell line from BMDMs. In the present study, we characterize this cell line both from a functional and metabolic point of view, comparing the different parameters to those obtained from the primary counterpart. Our results indicate that classically and alternatively immortalized macrophages display similar phenotypical, metabolic and functional features to primary cells polarized in the same way, validating their use for in vitro studies relevant to the understanding and targeting of immune cell functions within tumors. ABSTRACT: Macrophages are immune cells that are important for the development of the defensive front line of the innate immune system. Following signal recognition, macrophages undergo activation toward specific functional states, consisting not only in the acquisition of specific features but also of peculiar metabolic programs associated with each function. For these reasons, macrophages are often isolated from mice to perform cellular assays to study the mechanisms mediating immune cell activation. This requires expensive and time-consuming breeding and housing of mice strains. To overcome this issue, we analyzed an in-house J2-generated immortalized macrophage cell line from BMDMs, both from a functional and metabolic point of view. By assaying the intracellular and extracellular metabolism coupled with the phenotypic features of immortalized versus primary BMDMs, we concluded that classically and alternatively immortalized macrophages display similar phenotypical, metabolic and functional features compared to primary cells polarized in the same way. Our study validates the use of this immortalized cell line as a suitable model with which to evaluate in vitro how perturbations can influence the phenotypical and functional features of murine macrophages.
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spelling pubmed-85825892021-11-12 The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State Spera, Iolanda Sánchez-Rodríguez, Ricardo Favia, Maria Menga, Alessio Venegas, Francisca C. Angioni, Roberta Munari, Fabio Lanza, Martina Campanella, Annalisa Pierri, Ciro L. Canton, Marcella Castegna, Alessandra Cancers (Basel) Article SIMPLE SUMMARY: Evidence of the role of macrophages in promoting cancer progression has prompted scientists to investigate innate immune cell function in order to identify targetable checkpoint for reverting the protumoral functions of macrophages. Primary cultures isolated from mice necessary to investigate the mechanisms mediating immune cell activation require expensive and time-consuming breeding and housing of mice strains. We obtained an in-house generated immortalized macrophage cell line from BMDMs. In the present study, we characterize this cell line both from a functional and metabolic point of view, comparing the different parameters to those obtained from the primary counterpart. Our results indicate that classically and alternatively immortalized macrophages display similar phenotypical, metabolic and functional features to primary cells polarized in the same way, validating their use for in vitro studies relevant to the understanding and targeting of immune cell functions within tumors. ABSTRACT: Macrophages are immune cells that are important for the development of the defensive front line of the innate immune system. Following signal recognition, macrophages undergo activation toward specific functional states, consisting not only in the acquisition of specific features but also of peculiar metabolic programs associated with each function. For these reasons, macrophages are often isolated from mice to perform cellular assays to study the mechanisms mediating immune cell activation. This requires expensive and time-consuming breeding and housing of mice strains. To overcome this issue, we analyzed an in-house J2-generated immortalized macrophage cell line from BMDMs, both from a functional and metabolic point of view. By assaying the intracellular and extracellular metabolism coupled with the phenotypic features of immortalized versus primary BMDMs, we concluded that classically and alternatively immortalized macrophages display similar phenotypical, metabolic and functional features compared to primary cells polarized in the same way. Our study validates the use of this immortalized cell line as a suitable model with which to evaluate in vitro how perturbations can influence the phenotypical and functional features of murine macrophages. MDPI 2021-10-31 /pmc/articles/PMC8582589/ /pubmed/34771641 http://dx.doi.org/10.3390/cancers13215478 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Spera, Iolanda
Sánchez-Rodríguez, Ricardo
Favia, Maria
Menga, Alessio
Venegas, Francisca C.
Angioni, Roberta
Munari, Fabio
Lanza, Martina
Campanella, Annalisa
Pierri, Ciro L.
Canton, Marcella
Castegna, Alessandra
The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State
title The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State
title_full The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State
title_fullStr The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State
title_full_unstemmed The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State
title_short The J2-Immortalized Murine Macrophage Cell Line Displays Phenotypical and Metabolic Features of Primary BMDMs in Their M1 and M2 Polarization State
title_sort j2-immortalized murine macrophage cell line displays phenotypical and metabolic features of primary bmdms in their m1 and m2 polarization state
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8582589/
https://www.ncbi.nlm.nih.gov/pubmed/34771641
http://dx.doi.org/10.3390/cancers13215478
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