Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression

Isidoro Cobo; Jessica Murillo-Saich; Mohnish Alishala; Stephen Calderon; Roxana Coras; Benjamin Hemming; Faith Inkum; Fiorella Rosas; Riku Takei; Nathan Spann; Thomas A. Prohaska; Paulo V.G. Alabarse; Se Jin Jeong; Christian K. Nickl; Anyan Cheng; Benjamin Li; Andrea Vogel; Thomas Weichhart; José J. Fuster; Thomas Le; Tara R. Bradstreet; Ashlee M. Webber; Brian T. Edelson; Babak Razani; Benjamin L. Ebert; Reshma Taneja; Robert Terkeltaub; Ru Liu Bryan; Monica Guma; Christopher K. Glass

doi:10.1016/j.immuni.2025.02.023

Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression

Isidoro Cobo
, Jessica Murillo-Saich
, Mohnish Alishala
, Stephen Calderon
, Roxana Coras
, Benjamin Hemming
, Faith Inkum
, Fiorella Rosas
, Riku Takei
, Nathan Spann
, Thomas A. Prohaska
, Paulo V.G. Alabarse
, Se Jin Jeong
, Christian K. Nickl
, Anyan Cheng
, Benjamin Li
, Andrea Vogel
, Thomas Weichhart
, José J. Fuster
, Thomas Le

Tara R. Bradstreet, Ashlee M. Webber, Brian T. Edelson, Babak Razani, Benjamin L. Ebert, Reshma Taneja, Robert Terkeltaub, Ru Liu Bryan, Monica Guma, Christopher K. Glass

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

21 Scopus citations

Abstract

Exposure to particles is a driver of several inflammatory diseases. Here, we investigated macrophage responses to monosodium urate crystals, calcium pyrophosphate crystals, aluminum salts, and silica nanoparticles. While each particle induced a distinct gene expression pattern, we identified a common inflammatory signature and acute activation of lysosomal acidification genes. Using monosodium urate crystals as a model, we demonstrated that this lysosomal gene program is regulated by a 5′-prime-AMP-activated protein kinase (AMPK)-dependent transcriptional network, including TFEB, TFE3, and the epigenetic regulators DNA methyl transferase 3a (DNMT3A) and DOT1L. This lysosomal acidification program operates in parallel with, but largely independently of, a JNK-AP-1-dependent network driving crystal-induced chemokine and cytokine expression. These findings reveal a bifurcation in pathways governing inflammatory and lysosomal responses, offering insights for treating particle-associated diseases.

Original language	English
Pages (from-to)	826-842.e8
Journal	Immunity
Volume	58
Issue number	4
DOIs	https://doi.org/10.1016/j.immuni.2025.02.023
State	Published - Apr 8 2025

Keywords

AMPK
JNK
epigenetic regulation
lysosome
macrophages
particles
transcription

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10.1016/j.immuni.2025.02.023

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Cobo, I., Murillo-Saich, J., Alishala, M., Calderon, S., Coras, R., Hemming, B., Inkum, F., Rosas, F., Takei, R., Spann, N., Prohaska, T. A., Alabarse, P. V. G., Jeong, S. J., Nickl, C. K., Cheng, A., Li, B., Vogel, A., Weichhart, T., Fuster, J. J., ... Glass, C. K. (2025). Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression. Immunity, 58(4), 826-842.e8. https://doi.org/10.1016/j.immuni.2025.02.023

@article{528f459e4e9d433d85e074a885c0ba17,

title = "Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression",

abstract = "Exposure to particles is a driver of several inflammatory diseases. Here, we investigated macrophage responses to monosodium urate crystals, calcium pyrophosphate crystals, aluminum salts, and silica nanoparticles. While each particle induced a distinct gene expression pattern, we identified a common inflammatory signature and acute activation of lysosomal acidification genes. Using monosodium urate crystals as a model, we demonstrated that this lysosomal gene program is regulated by a 5′-prime-AMP-activated protein kinase (AMPK)-dependent transcriptional network, including TFEB, TFE3, and the epigenetic regulators DNA methyl transferase 3a (DNMT3A) and DOT1L. This lysosomal acidification program operates in parallel with, but largely independently of, a JNK-AP-1-dependent network driving crystal-induced chemokine and cytokine expression. These findings reveal a bifurcation in pathways governing inflammatory and lysosomal responses, offering insights for treating particle-associated diseases.",

keywords = "AMPK, JNK, epigenetic regulation, lysosome, macrophages, particles, transcription",

author = "Isidoro Cobo and Jessica Murillo-Saich and Mohnish Alishala and Stephen Calderon and Roxana Coras and Benjamin Hemming and Faith Inkum and Fiorella Rosas and Riku Takei and Nathan Spann and Prohaska, \{Thomas A.\} and Alabarse, \{Paulo V.G.\} and Jeong, \{Se Jin\} and Nickl, \{Christian K.\} and Anyan Cheng and Benjamin Li and Andrea Vogel and Thomas Weichhart and Fuster, \{Jos{\'e} J.\} and Thomas Le and Bradstreet, \{Tara R.\} and Webber, \{Ashlee M.\} and Edelson, \{Brian T.\} and Babak Razani and Ebert, \{Benjamin L.\} and Reshma Taneja and Robert Terkeltaub and Bryan, \{Ru Liu\} and Monica Guma and Glass, \{Christopher K.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Elsevier Inc.",

year = "2025",

month = apr,

day = "8",

doi = "10.1016/j.immuni.2025.02.023",

language = "English",

volume = "58",

pages = "826--842.e8",

journal = "Immunity",

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Cobo, I, Murillo-Saich, J, Alishala, M, Calderon, S, Coras, R, Hemming, B, Inkum, F, Rosas, F, Takei, R, Spann, N, Prohaska, TA, Alabarse, PVG, Jeong, SJ, Nickl, CK, Cheng, A, Li, B, Vogel, A, Weichhart, T, Fuster, JJ, Le, T, Bradstreet, TR, Webber, AM, Edelson, BT, Razani, B, Ebert, BL, Taneja, R, Terkeltaub, R, Bryan, RL, Guma, M & Glass, CK 2025, 'Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression', Immunity, vol. 58, no. 4, pp. 826-842.e8. https://doi.org/10.1016/j.immuni.2025.02.023

TY - JOUR

T1 - Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression

AU - Cobo, Isidoro

AU - Murillo-Saich, Jessica

AU - Alishala, Mohnish

AU - Calderon, Stephen

AU - Coras, Roxana

AU - Hemming, Benjamin

AU - Inkum, Faith

AU - Rosas, Fiorella

AU - Takei, Riku

AU - Spann, Nathan

AU - Prohaska, Thomas A.

AU - Alabarse, Paulo V.G.

AU - Jeong, Se Jin

AU - Nickl, Christian K.

AU - Cheng, Anyan

AU - Li, Benjamin

AU - Vogel, Andrea

AU - Weichhart, Thomas

AU - Fuster, José J.

AU - Le, Thomas

AU - Bradstreet, Tara R.

AU - Webber, Ashlee M.

AU - Edelson, Brian T.

AU - Razani, Babak

AU - Ebert, Benjamin L.

AU - Taneja, Reshma

AU - Terkeltaub, Robert

AU - Bryan, Ru Liu

AU - Guma, Monica

AU - Glass, Christopher K.

PY - 2025/4/8

Y1 - 2025/4/8

N2 - Exposure to particles is a driver of several inflammatory diseases. Here, we investigated macrophage responses to monosodium urate crystals, calcium pyrophosphate crystals, aluminum salts, and silica nanoparticles. While each particle induced a distinct gene expression pattern, we identified a common inflammatory signature and acute activation of lysosomal acidification genes. Using monosodium urate crystals as a model, we demonstrated that this lysosomal gene program is regulated by a 5′-prime-AMP-activated protein kinase (AMPK)-dependent transcriptional network, including TFEB, TFE3, and the epigenetic regulators DNA methyl transferase 3a (DNMT3A) and DOT1L. This lysosomal acidification program operates in parallel with, but largely independently of, a JNK-AP-1-dependent network driving crystal-induced chemokine and cytokine expression. These findings reveal a bifurcation in pathways governing inflammatory and lysosomal responses, offering insights for treating particle-associated diseases.

AB - Exposure to particles is a driver of several inflammatory diseases. Here, we investigated macrophage responses to monosodium urate crystals, calcium pyrophosphate crystals, aluminum salts, and silica nanoparticles. While each particle induced a distinct gene expression pattern, we identified a common inflammatory signature and acute activation of lysosomal acidification genes. Using monosodium urate crystals as a model, we demonstrated that this lysosomal gene program is regulated by a 5′-prime-AMP-activated protein kinase (AMPK)-dependent transcriptional network, including TFEB, TFE3, and the epigenetic regulators DNA methyl transferase 3a (DNMT3A) and DOT1L. This lysosomal acidification program operates in parallel with, but largely independently of, a JNK-AP-1-dependent network driving crystal-induced chemokine and cytokine expression. These findings reveal a bifurcation in pathways governing inflammatory and lysosomal responses, offering insights for treating particle-associated diseases.

KW - AMPK

KW - JNK

KW - epigenetic regulation

KW - lysosome

KW - macrophages

KW - particles

KW - transcription

UR - https://www.scopus.com/pages/publications/105001565843

U2 - 10.1016/j.immuni.2025.02.023

DO - 10.1016/j.immuni.2025.02.023

M3 - Article

C2 - 40118070

AN - SCOPUS:105001565843

SN - 1074-7613

VL - 58

SP - 826-842.e8

JO - Immunity

JF - Immunity

IS - 4

ER -

Particle uptake by macrophages triggers bifurcated transcriptional pathways that differentially regulate inflammation and lysosomal gene expression

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Keywords

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