Aging Induces an Nlrp3 Inflammasome-Dependent Expansion of Adipose B Cells That Impairs Metabolic Homeostasis

Christina D. Camell; Patrick Günther; Aileen Lee; Emily L. Goldberg; Olga Spadaro; Yun Hee Youm; Andrzej Bartke; Gene B. Hubbard; Yuji Ikeno; Nancy H. Ruddle; Joachim Schultze; Vishwa Deep Dixit

doi:10.1016/j.cmet.2019.10.006

Aging Induces an Nlrp3 Inflammasome-Dependent Expansion of Adipose B Cells That Impairs Metabolic Homeostasis

Christina D. Camell, Patrick Günther, Aileen Lee, Emily L. Goldberg, Olga Spadaro, Yun Hee Youm, Andrzej Bartke, Gene B. Hubbard, Yuji Ikeno, Nancy H. Ruddle, Joachim Schultze, Vishwa Deep Dixit

Producción científica: Article › revisión exhaustiva

143 Citas (Scopus)

Resumen

During aging, visceral adiposity is often associated with alterations in adipose tissue (AT) leukocytes, inflammation, and metabolic dysfunction. However, the contribution of AT B cells in immunometabolism during aging is unexplored. Here, we show that aging is associated with an expansion of a unique population of resident non-senescent aged adipose B cells (AABs) found in fat-associated lymphoid clusters (FALCs). AABs are transcriptionally distinct from splenic age-associated B cells (ABCs) and show greater expansion in female mice. Functionally, whole-body B cell depletion restores proper lipolysis and core body temperature maintenance during cold stress. Mechanistically, the age-induced FALC formation, AAB, and splenic ABC expansion is dependent on the Nlrp3 inflammasome. Furthermore, AABs express IL-1R, and inhibition of IL-1 signaling reduces their proliferation and increases lipolysis in aging. These data reveal that inhibiting Nlrp3-dependent B cell accumulation can be targeted to reverse metabolic impairment in aging AT.

Idioma original	English (US)
Páginas (desde-hasta)	1024-1039.e6
Publicación	Cell Metabolism
Volumen	30
N.º	6
DOI	https://doi.org/10.1016/j.cmet.2019.10.006
Estado	Published - dic 3 2019

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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title = "Aging Induces an Nlrp3 Inflammasome-Dependent Expansion of Adipose B Cells That Impairs Metabolic Homeostasis",

abstract = "During aging, visceral adiposity is often associated with alterations in adipose tissue (AT) leukocytes, inflammation, and metabolic dysfunction. However, the contribution of AT B cells in immunometabolism during aging is unexplored. Here, we show that aging is associated with an expansion of a unique population of resident non-senescent aged adipose B cells (AABs) found in fat-associated lymphoid clusters (FALCs). AABs are transcriptionally distinct from splenic age-associated B cells (ABCs) and show greater expansion in female mice. Functionally, whole-body B cell depletion restores proper lipolysis and core body temperature maintenance during cold stress. Mechanistically, the age-induced FALC formation, AAB, and splenic ABC expansion is dependent on the Nlrp3 inflammasome. Furthermore, AABs express IL-1R, and inhibition of IL-1 signaling reduces their proliferation and increases lipolysis in aging. These data reveal that inhibiting Nlrp3-dependent B cell accumulation can be targeted to reverse metabolic impairment in aging AT.",

keywords = "B cell depletion, IL-1 signaling, Nlrp3 inflammasome, adipose tissue B cells, age-associated B cells, aging, fat-associated lymphoid cluster, growth hormone receptor, inflammaging, lipolysis",

author = "Camell, {Christina D.} and Patrick G{\"u}nther and Aileen Lee and Goldberg, {Emily L.} and Olga Spadaro and Youm, {Yun Hee} and Andrzej Bartke and Hubbard, {Gene B.} and Yuji Ikeno and Ruddle, {Nancy H.} and Joachim Schultze and Dixit, {Vishwa Deep}",

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T1 - Aging Induces an Nlrp3 Inflammasome-Dependent Expansion of Adipose B Cells That Impairs Metabolic Homeostasis

AU - Camell, Christina D.

AU - Günther, Patrick

AU - Lee, Aileen

AU - Goldberg, Emily L.

AU - Spadaro, Olga

AU - Youm, Yun Hee

AU - Bartke, Andrzej

AU - Hubbard, Gene B.

AU - Ikeno, Yuji

AU - Ruddle, Nancy H.

AU - Schultze, Joachim

AU - Dixit, Vishwa Deep

PY - 2019/12/3

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N2 - During aging, visceral adiposity is often associated with alterations in adipose tissue (AT) leukocytes, inflammation, and metabolic dysfunction. However, the contribution of AT B cells in immunometabolism during aging is unexplored. Here, we show that aging is associated with an expansion of a unique population of resident non-senescent aged adipose B cells (AABs) found in fat-associated lymphoid clusters (FALCs). AABs are transcriptionally distinct from splenic age-associated B cells (ABCs) and show greater expansion in female mice. Functionally, whole-body B cell depletion restores proper lipolysis and core body temperature maintenance during cold stress. Mechanistically, the age-induced FALC formation, AAB, and splenic ABC expansion is dependent on the Nlrp3 inflammasome. Furthermore, AABs express IL-1R, and inhibition of IL-1 signaling reduces their proliferation and increases lipolysis in aging. These data reveal that inhibiting Nlrp3-dependent B cell accumulation can be targeted to reverse metabolic impairment in aging AT.

AB - During aging, visceral adiposity is often associated with alterations in adipose tissue (AT) leukocytes, inflammation, and metabolic dysfunction. However, the contribution of AT B cells in immunometabolism during aging is unexplored. Here, we show that aging is associated with an expansion of a unique population of resident non-senescent aged adipose B cells (AABs) found in fat-associated lymphoid clusters (FALCs). AABs are transcriptionally distinct from splenic age-associated B cells (ABCs) and show greater expansion in female mice. Functionally, whole-body B cell depletion restores proper lipolysis and core body temperature maintenance during cold stress. Mechanistically, the age-induced FALC formation, AAB, and splenic ABC expansion is dependent on the Nlrp3 inflammasome. Furthermore, AABs express IL-1R, and inhibition of IL-1 signaling reduces their proliferation and increases lipolysis in aging. These data reveal that inhibiting Nlrp3-dependent B cell accumulation can be targeted to reverse metabolic impairment in aging AT.

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KW - fat-associated lymphoid cluster

KW - growth hormone receptor

KW - inflammaging

KW - lipolysis

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Aging Induces an Nlrp3 Inflammasome-Dependent Expansion of Adipose B Cells That Impairs Metabolic Homeostasis

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