Monitoring Lactate Dynamics in Individual Macrophages with a Genetically Encoded Probe

Felipe Baeza-Lehnert; Carlos A. Flores; Anita Guequén; L. Felipe Barros

doi:10.1007/978-1-0716-0802-9_2

Monitoring Lactate Dynamics in Individual Macrophages with a Genetically Encoded Probe

Felipe Baeza-Lehnert^*, Carlos A. Flores, Anita Guequén, L. Felipe Barros

^*Autor correspondiente de este trabajo

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Resumen

Lactate, the product of aerobic glycolysis, plays a dual role as fuel and intercellular signal in inflammation, immune evasion, and tumor progression. The production of lactate by macrophages has been associated with their polarization and function. Here we describe imaging protocols to characterize the metabolism of cultured human macrophages using a genetically encoded fluorescent sensor-specific for lactate. By superfusing cultures with increasing lactate concentrations and pharmacological inhibitors, it is possible to estimate the kinetic parameters of monocarboxylate transporter 4 (MCT4) and lactate production. Practical advice is given regarding sensor expression, imaging, and data analysis. The spatiotemporal resolution of this technique is amenable to the study of fast events at the single-cell level in different immune and other cell types.

Idioma original	Inglés
Título de la publicación alojada	Methods in Molecular Biology
Editorial	Humana Press Inc.
Páginas	19-30
Número de páginas	12
DOI	https://doi.org/10.1007/978-1-0716-0802-9_2
Estado	Publicada - 2020
Publicado de forma externa	Sí

Serie de la publicación

Nombre	Methods in Molecular Biology
Volumen	2184
ISSN (versión impresa)	1064-3745
ISSN (versión digital)	1940-6029

Nota bibliográfica

Publisher Copyright:
© 2020, Springer Science+Business Media, LLC, part of Springer Nature.

Áreas temáticas de ASJC Scopus

Biología molecular
Genética

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title = "Monitoring Lactate Dynamics in Individual Macrophages with a Genetically Encoded Probe",

abstract = "Lactate, the product of aerobic glycolysis, plays a dual role as fuel and intercellular signal in inflammation, immune evasion, and tumor progression. The production of lactate by macrophages has been associated with their polarization and function. Here we describe imaging protocols to characterize the metabolism of cultured human macrophages using a genetically encoded fluorescent sensor-specific for lactate. By superfusing cultures with increasing lactate concentrations and pharmacological inhibitors, it is possible to estimate the kinetic parameters of monocarboxylate transporter 4 (MCT4) and lactate production. Practical advice is given regarding sensor expression, imaging, and data analysis. The spatiotemporal resolution of this technique is amenable to the study of fast events at the single-cell level in different immune and other cell types.",

keywords = "Aerobic glycolysis, FRET microscopy, Laconic, MCT4, Warburg effect",

author = "Felipe Baeza-Lehnert and Flores, {Carlos A.} and Anita Guequ{\'e}n and Barros, {L. Felipe}",

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AU - Barros, L. Felipe

PY - 2020

Y1 - 2020

N2 - Lactate, the product of aerobic glycolysis, plays a dual role as fuel and intercellular signal in inflammation, immune evasion, and tumor progression. The production of lactate by macrophages has been associated with their polarization and function. Here we describe imaging protocols to characterize the metabolism of cultured human macrophages using a genetically encoded fluorescent sensor-specific for lactate. By superfusing cultures with increasing lactate concentrations and pharmacological inhibitors, it is possible to estimate the kinetic parameters of monocarboxylate transporter 4 (MCT4) and lactate production. Practical advice is given regarding sensor expression, imaging, and data analysis. The spatiotemporal resolution of this technique is amenable to the study of fast events at the single-cell level in different immune and other cell types.

AB - Lactate, the product of aerobic glycolysis, plays a dual role as fuel and intercellular signal in inflammation, immune evasion, and tumor progression. The production of lactate by macrophages has been associated with their polarization and function. Here we describe imaging protocols to characterize the metabolism of cultured human macrophages using a genetically encoded fluorescent sensor-specific for lactate. By superfusing cultures with increasing lactate concentrations and pharmacological inhibitors, it is possible to estimate the kinetic parameters of monocarboxylate transporter 4 (MCT4) and lactate production. Practical advice is given regarding sensor expression, imaging, and data analysis. The spatiotemporal resolution of this technique is amenable to the study of fast events at the single-cell level in different immune and other cell types.

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T3 - Methods in Molecular Biology

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BT - Methods in Molecular Biology

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Monitoring Lactate Dynamics in Individual Macrophages with a Genetically Encoded Probe

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