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 LeTara 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

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

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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 - http://www.scopus.com/inward/record.url?scp=105001565843&partnerID=8YFLogxK

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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