mTORC2 Signaling Selectively Regulates the Generation and Function of Tissue-Resident Peritoneal Macrophages

Min Hee Oh; Samuel L. Collins; Im Hong Sun; Ada J. Tam; Chirag H. Patel; Matthew L. Arwood; Yee Chan-Li; Jonathan D. Powell; Maureen R. Horton

doi:10.1016/j.celrep.2017.08.046

mTORC2 Signaling Selectively Regulates the Generation and Function of Tissue-Resident Peritoneal Macrophages

Min Hee Oh, Samuel L. Collins, Im Hong Sun, Ada J. Tam, Chirag H. Patel, Matthew L. Arwood, Yee Chan-Li, Jonathan D. Powell, Maureen R. Horton

School of Medicine

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

25 Scopus citations

Abstract

Tissue-resident macrophages play critical roles in sentinel and homeostatic functions as well as in promoting inflammation and immunity. It has become clear that the generation of these cells is highly dependent upon tissue-specific cues derived from the microenvironment that, in turn, regulate unique differentiation programs. Recently, a role for GATA6 has emerged in the differentiation programming of resident peritoneal macrophages. We identify a critical role for mTOR in integrating cues from the tissue microenvironment in regulating differentiation and metabolic reprogramming. Specifically, inhibition of mTORC2 leads to enhanced GATA6 expression in a FOXO1 dependent fashion. Functionally, inhibition of mTORC2 promotes peritoneal resident macrophage generation in the resolution phase during zymosan-induced peritonitis. Also, mTORC2-deficient peritoneal resident macrophages displayed increased functionality and metabolic reprogramming. Notably, mTORC2 activation distinguishes tissue-resident macrophage proliferation and differentiation from that of M2 macrophages. Overall, our data implicate a selective role for mTORC2 in the differentiation of tissue-resident macrophages.

Original language	English (US)
Pages (from-to)	2439-2454
Number of pages	16
Journal	Cell Reports
Volume	20
Issue number	10
DOIs	https://doi.org/10.1016/j.celrep.2017.08.046
State	Published - Sep 5 2017

Keywords

AKT
FOXO1
GATA6
mTOR
mTORC2
metabolism
peritoneal macrophage
tissue-resident macrophage

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2017.08.046

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@article{e46950e85cf74adcabc97420322bb54c,

title = "mTORC2 Signaling Selectively Regulates the Generation and Function of Tissue-Resident Peritoneal Macrophages",

abstract = "Tissue-resident macrophages play critical roles in sentinel and homeostatic functions as well as in promoting inflammation and immunity. It has become clear that the generation of these cells is highly dependent upon tissue-specific cues derived from the microenvironment that, in turn, regulate unique differentiation programs. Recently, a role for GATA6 has emerged in the differentiation programming of resident peritoneal macrophages. We identify a critical role for mTOR in integrating cues from the tissue microenvironment in regulating differentiation and metabolic reprogramming. Specifically, inhibition of mTORC2 leads to enhanced GATA6 expression in a FOXO1 dependent fashion. Functionally, inhibition of mTORC2 promotes peritoneal resident macrophage generation in the resolution phase during zymosan-induced peritonitis. Also, mTORC2-deficient peritoneal resident macrophages displayed increased functionality and metabolic reprogramming. Notably, mTORC2 activation distinguishes tissue-resident macrophage proliferation and differentiation from that of M2 macrophages. Overall, our data implicate a selective role for mTORC2 in the differentiation of tissue-resident macrophages.",

keywords = "AKT, FOXO1, GATA6, mTOR, mTORC2, metabolism, peritoneal macrophage, tissue-resident macrophage",

author = "Oh, {Min Hee} and Collins, {Samuel L.} and Sun, {Im Hong} and Tam, {Ada J.} and Patel, {Chirag H.} and Arwood, {Matthew L.} and Yee Chan-Li and Powell, {Jonathan D.} and Horton, {Maureen R.}",

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year = "2017",

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doi = "10.1016/j.celrep.2017.08.046",

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T1 - mTORC2 Signaling Selectively Regulates the Generation and Function of Tissue-Resident Peritoneal Macrophages

AU - Oh, Min Hee

AU - Collins, Samuel L.

AU - Sun, Im Hong

AU - Tam, Ada J.

AU - Patel, Chirag H.

AU - Arwood, Matthew L.

AU - Chan-Li, Yee

AU - Powell, Jonathan D.

AU - Horton, Maureen R.

PY - 2017/9/5

Y1 - 2017/9/5

N2 - Tissue-resident macrophages play critical roles in sentinel and homeostatic functions as well as in promoting inflammation and immunity. It has become clear that the generation of these cells is highly dependent upon tissue-specific cues derived from the microenvironment that, in turn, regulate unique differentiation programs. Recently, a role for GATA6 has emerged in the differentiation programming of resident peritoneal macrophages. We identify a critical role for mTOR in integrating cues from the tissue microenvironment in regulating differentiation and metabolic reprogramming. Specifically, inhibition of mTORC2 leads to enhanced GATA6 expression in a FOXO1 dependent fashion. Functionally, inhibition of mTORC2 promotes peritoneal resident macrophage generation in the resolution phase during zymosan-induced peritonitis. Also, mTORC2-deficient peritoneal resident macrophages displayed increased functionality and metabolic reprogramming. Notably, mTORC2 activation distinguishes tissue-resident macrophage proliferation and differentiation from that of M2 macrophages. Overall, our data implicate a selective role for mTORC2 in the differentiation of tissue-resident macrophages.

AB - Tissue-resident macrophages play critical roles in sentinel and homeostatic functions as well as in promoting inflammation and immunity. It has become clear that the generation of these cells is highly dependent upon tissue-specific cues derived from the microenvironment that, in turn, regulate unique differentiation programs. Recently, a role for GATA6 has emerged in the differentiation programming of resident peritoneal macrophages. We identify a critical role for mTOR in integrating cues from the tissue microenvironment in regulating differentiation and metabolic reprogramming. Specifically, inhibition of mTORC2 leads to enhanced GATA6 expression in a FOXO1 dependent fashion. Functionally, inhibition of mTORC2 promotes peritoneal resident macrophage generation in the resolution phase during zymosan-induced peritonitis. Also, mTORC2-deficient peritoneal resident macrophages displayed increased functionality and metabolic reprogramming. Notably, mTORC2 activation distinguishes tissue-resident macrophage proliferation and differentiation from that of M2 macrophages. Overall, our data implicate a selective role for mTORC2 in the differentiation of tissue-resident macrophages.

KW - AKT

KW - FOXO1

KW - GATA6

KW - mTOR

KW - mTORC2

KW - metabolism

KW - peritoneal macrophage

KW - tissue-resident macrophage

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mTORC2 Signaling Selectively Regulates the Generation and Function of Tissue-Resident Peritoneal Macrophages

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Keywords

ASJC Scopus subject areas

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