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Myeloid folliculin balances mTOR activation to maintain innate immunity homeostasis
Jia Li, Shogo Wada, Lehn K. Weaver, Chhanda Biswas, Edward M. Behrens, Zoltan Arany
Jia Li, Shogo Wada, Lehn K. Weaver, Chhanda Biswas, Edward M. Behrens, Zoltan Arany
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Research Article Cell biology Immunology

Myeloid folliculin balances mTOR activation to maintain innate immunity homeostasis

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Abstract

The mTOR pathway is central to most cells. How mTOR is activated in macrophages and how it modulates macrophage physiology remain poorly understood. The tumor suppressor folliculin (FLCN) is a GAP for RagC/D, a regulator of mTOR. We show here that LPS potently suppresses FLCN in macrophages, allowing nuclear translocation of the transcription factor TFE3, leading to lysosome biogenesis, cytokine production, and hypersensitivity to inflammatory signals. Nuclear TFE3 additionally activates a transcriptional RagD-positive feedback loop that stimulates FLCN-independent canonical mTOR signaling to S6K and increases cellular proliferation. LPS thus simultaneously suppresses the TFE3 arm and activates the S6K arm of mTOR. In vivo, mice lacking myeloid FLCN reveal chronic macrophage activation, leading to profound histiocytic infiltration and tissue disruption, with hallmarks of human histiocytic syndromes, such as Erdheim-Chester disease. Our data thus identify a critical FLCN-mTOR-TFE3 axis in myeloid cells, modulated by LPS, that balances mTOR activation and curbs innate immune responses.

Authors

Jia Li, Shogo Wada, Lehn K. Weaver, Chhanda Biswas, Edward M. Behrens, Zoltan Arany

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Figure 6

Myeloid FLCN inactivation leads to systemic histiocytic inflammation in mice, which is largely rescued by TFE3 deletion.

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Myeloid FLCN inactivation leads to systemic histiocytic inflammation in ...
(A) Gross images of FLCNlox/lox, FLCNlox/lox Lyz2 Cre, and FLCNlox/lox Lyz2 Cre TFE3 KO mice at 8 and 12 months old. (B) Gross images of spleens and livers from 12-month-old mice of different genotypes. Data are represented as mean ± SEM from 9 animals for each genotype. **P < 0.01 vs. FLCNlox/lox, ##P < 0.05 vs. FLCNlox/lox Lyz2 Cre, determined by 1-way ANOVA followed by t test (Bonferroni correction). (C) H&E staining of spleens, bone marrow, skin, livers, lymph nodes, and inguinal white adipose tissue (iWAT) from 12-month-old mice of different genotypes. Hemophagocytosis was indicated by black arrow. Black scale bar: 100 μm. White scale bar (lymph node): 50 μm. (D) F4/80 staining (green) and DAPI (blue) in the spleens, livers, and skin from 12-month-old mice of different genotypes. Scale bar: 200 μm.

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