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References (64)
-
J. Bauer, O. Bakke, J. Morth (2017)
Overview of the membrane-associated RING-CH (MARCH) E3 ligase family.New biotechnology, 38 Pt A
-
Ning An, Yanwen Chen, Chao Wang, Chen Yang, Zhi-hong Wu, Jing Xue, L. Ye, Shujun Wang, Hua-feng Liu, Qingjun Pan (2017)
Chloroquine Autophagic Inhibition Rebalances Th17/Treg-Mediated Immunity and Ameliorates Systemic Lupus ErythematosusCellular Physiology and Biochemistry, 44
-
Kun Liu, Enpeng Zhao, G. Ilyas, G. Lalazar, Yu Lin, M. Haseeb, Kathryn Tanaka, M. Czaja (2015)
Impaired macrophage autophagy increases the immune response in obese mice by promoting proinflammatory macrophage polarizationAutophagy, 11
-
(2017)
Nf-κB signaling in inflammation. Signal transduction and targeted therapy, 2
-
Rui-Hong Chen, Mi Li, Yu Zhang, Qian Zhou, H. Shu (2012)
The E3 ubiquitin ligase MARCH8 negatively regulates IL-1β-induced NF-κB activation by targeting the IL1RAP coreceptor for ubiquitination and degradationProceedings of the National Academy of Sciences, 109
-
H. Jang, H. Rabb (2015)
Immune cells in experimental acute kidney injuryNature Reviews Nephrology, 11
-
P. Coelho, G. Hesketh, Annika Pedersen, Elena Kuzmin, Anne-Marie Fortier, Emily Bell, Colin Ratcliffe, A. Gingras, Morag Park (2022)
Endosomal LC3C-pathway selectively targets plasma membrane cargo for autophagic degradationNature Communications, 13
-
(2016)
Autophagy induces prosenescent changes in proximal tubular S3 segments, 27
-
Yanan Li, Shujing Li, Huijian Wu (2022)
Ubiquitination-Proteasome System (UPS) and Autophagy Two Main Protein Degradation Machineries in Response to Cell StressCells, 11
-
(2011)
Crystal structure of the ubiquitin-associated (UBA) domain of p62 and its interaction with ubiquitin, 286
-
Wenjing Wang, Jingwei Bian, Yang Sun, Zijian Li (2021)
The new fate of internalized membrane receptors: Internalized activation.Pharmacology & therapeutics
-
Rikio Yabe, S. Chung, Masanori Murayama, Sachiko Kubo, K. Shimizu, Y. Akahori, Takumi Maruhashi, Akimasa Seno, T. Kaifu, S. Saijo, Y. Iwakura (2021)
TARM1 contributes to development of arthritis by activating dendritic cells through recognition of collagensNature Communications, 12
-
A. Santeford, L. Wiley, Sunmin Park, S. Bamba, R. Nakamura, Abdelaziz Gdoura, T. Ferguson, P. Rao, J. Guan, T. Saitoh, S. Akira, R. Xavier, H. Virgin, R. Apte (2016)
Impaired autophagy in macrophages promotes inflammatory eye diseaseAutophagy, 12
-
D. Basile, J. Bonventre, R. Mehta, M. Nangaku, R. Unwin, M. Rosner, J. Kellum, C. Ronco (2016)
Progression after AKI: Understanding Maladaptive Repair Processes to Predict and Identify Therapeutic Treatments.Journal of the American Society of Nephrology : JASN, 27 3
-
Xuankun Chen, Yaxian Zhou, Yuan Zhao, Weiping Tang (2023)
Targeted degradation of extracellular secreted and membrane proteins.Trends in pharmacological sciences
-
Jacob Gump, A. Thorburn (2014)
Sorting cells for basal and induced autophagic flux by quantitative ratiometric flow cytometryAutophagy, 10
-
Valeria Radjabova, Piero Mastroeni, K. Skjødt, P. Zaccone, B. Bono, J. Goodall, E. Chilvers, J. Juss, Des Jones, J. Trowsdale, A. Barrow (2015)
TARM1 Is a Novel Leukocyte Receptor Complex–Encoded ITAM Receptor That Costimulates Proinflammatory Cytokine Secretion by Macrophages and NeutrophilsThe Journal of Immunology, 195
-
Takuya Tada, Yan-Zhong Zhang, T. Koyama, M. Tobiume, Y. Tsunetsugu-Yokota, S. Yamaoka, H. Fujita, K. Tokunaga (2015)
MARCH8 inhibits HIV-1 infection by reducing virion incorporation of envelope glycoproteinsNature Medicine, 21
-
J. Lafrance, Donald Miller (2010)
Acute kidney injury associates with increased long-term mortality.Journal of the American Society of Nephrology : JASN, 21 2
-
Hila Winer, Milana Fraiberg, Adi Abada, T. Dadosh, Bat-Chen Tamim-Yecheskel, Z. Elazar (2018)
Autophagy differentially regulates TNF receptor Fn14 by distinct mammalian Atg8 proteinsNature Communications, 9
-
Sik Lee, Sarah Huen, Hitoshi Nishio, Saori Nishio, H. Lee, B. Choi, C. Ruhrberg, L. Cantley (2011)
Distinct macrophage phenotypes contribute to kidney injury and repair.Journal of the American Society of Nephrology : JASN, 22 2
-
J. Wiśniewski, A. Zougman, Nagarjuna Nagaraj, M. Mann (2009)
Universal sample preparation method for proteome analysisNature Methods, 6
-
Ting Liu, Lingyun Zhang, Donghyun Joo, Shao-Cong Sun (2017)
NF-κB signaling in inflammationSignal Transduction and Targeted Therapy, 2
-
Mary Choi (2020)
Autophagy in Kidney Disease.Annual review of physiology
-
S. Coca, Swathi Singanamala, C. Parikh (2012)
Chronic kidney disease after acute kidney injury: a systematic review and meta-analysis.Kidney international, 81 5
-
R. Piper, D. Katzmann (2007)
Biogenesis and function of multivesicular bodies.Annual review of cell and developmental biology, 23
-
G. Choi, Seung-Yong Yoon, Ji-Yun Kim, Dongsoo Kang, Y. Jang, H. Kim (2017)
Autophagy deficiency in myeloid cells exacerbates eosinophilic inflammation in chronic rhinosinusitisThe Journal of Allergy and Clinical Immunology, 141
-
P. Tang, D. Nikolic-Paterson, H. Lan (2019)
Macrophages: versatile players in renal inflammation and fibrosisNature Reviews Nephrology, 15
-
P. Li, E. Burdmann, R. Mehta (2013)
Acute kidney injury: global health alert.Kidney international, 83 3
-
Supawadee Umthong, Brian Lynch, U. Timilsina, Brandon Waxman, Emily Ivey, Spyridon Stavrou (2021)
Elucidating the Antiviral Mechanism of Different MARCH FactorsmBio, 12
-
T. Wynn, K. Vannella (2016)
Macrophages in Tissue Repair, Regeneration, and Fibrosis.Immunity, 44 3
-
Jian-xing Liu, Chen Yang, Wei-huang Zhang, Hong-yong Su, Ze Liu, Qingjun Pan, Hua-feng Liu (2019)
Disturbance of mitochondrial dynamics and mitophagy in sepsis-induced acute kidney injury.Life sciences
-
N. Foot, T. Henshall, Sharad Kumar (2017)
Ubiquitination and the Regulation of Membrane Proteins.Physiological reviews, 97 1
-
Man Jiang, Qingqing Wei, Guie Dong, M. Komatsu, Yunchao Su, Z. Dong (2012)
Autophagy in proximal tubules protects against acute kidney injuryKidney international, 82
-
Mingjun Shi, Jenny Maique, Sierra Shepard, Peng Li, Olivia Seli, O. Moe, Ming Hu (2021)
In vivo evidence for therapeutic applications of beclin 1 to promote recovery and inhibit fibrosis after acute kidney injury.Kidney international
-
M. Morgan, Zheng-Gang Liu (2011)
Crosstalk of reactive oxygen species and NF-κB signalingCell Research, 21
-
Baoshan Cai, Jian Zhao, Yuling Zhang, Yaxing Liu, Chunhong Ma, F. Yi, Yi Zheng, Lei Zhang, Tian Cheng, Huiqing Liu, Bingyu Liu, Chengjiang Gao (2021)
USP5 attenuates NLRP3 inflammasome activation by promoting autophagic degradation of NLRP3Autophagy, 18
-
R. Liu, Juanjuan Cui, Yating Sun, Wentao Xu, Ziming Wang, Miaomiao Wu, Huke Dong, Congcong Yang, Shaocheng Hong, Shi Yin, Hua Wang (2021)
Autophagy deficiency promotes M1 macrophage polarization to exacerbate acute liver injury via ATG5 repression during agingCell Death Discovery, 7
-
L. Ye, Wanxia Pang, Ya-Hui Huang, Hongluan Wu, Xiaorong Huang, Jian-xing Liu, Shujun Wang, Chen Yang, Qingjun Pan, Hua-feng Liu (2021)
Lansoprazole promotes cisplatin‐induced acute kidney injury via enhancing tubular necroptosisJournal of Cellular and Molecular Medicine, 25
-
A. Majdoubi, Jun Lee, O. Kishta, M. Balood, M. Moulefera, S. Ishido, S. Talbot, C. Cheong, T. Alquier, J. Thibodeau (2020)
Lack of the E3 Ubiquitin Ligase March1 Affects CD8 T Cell Fate and Exacerbates Insulin Resistance in Obese MiceFrontiers in Immunology, 11
-
Ning An, Chen Yang, Hongluan Wu, Yun Guo, Xi-jie Huang, Tongxing Huang, Zhi-hong Wu, Jing Xue, Ruigang Chen, Zhi-Hang Li, Qingjun Pan, Hua-feng Liu (2022)
Hydroxychloroquine administration exacerbates acute kidney injury complicated by lupus nephritisArthritis Research & Therapy, 24
-
Jie Xu, Chanjuan Shen, Wei Lin, Ting Meng, J. Ooi, P. Eggenhuizen, R. Tang, Gong Xiao, Peng Jin, Xiang Ding, Yangshuo Tang, W. Peng, Wannian Nie, X. Ao, X. Xiao, Yong Zhong, Qiao-ling Zhou (2021)
Single-Cell Profiling Reveals Transcriptional Signatures and Cell-Cell Crosstalk in Anti-PLA2R Positive Idiopathic Membranous Nephropathy PatientsFrontiers in Immunology, 12
-
S. Shaid, C. Brandts, H. Serve, I. Dikič (2012)
Ubiquitination and selective autophagyCell Death and Differentiation, 20
-
G. Ilyas, Enpeng Zhao, Kun Liu, Yu Lin, L. Tesfa, Kathryn Tanaka, M. Czaja (2016)
Macrophage autophagy limits acute toxic liver injury in mice through down regulation of interleukin-1β.Journal of hepatology, 64 1
-
Peiwen Chen, M. Cescon, P. Bonaldo (2014)
Autophagy-mediated regulation of macrophages and its applications for cancerAutophagy, 10
-
Junping Pei, Guan Wang, Lu Feng, Jifa Zhang, Tingting Jiang, Qiu Sun, L. Ouyang (2021)
Targeting Lysosomal Degradation Pathways: New Strategies and Techniques for Drug Discovery.Journal of medicinal chemistry
-
A. Mócsai, J. Ruland, V. Tybulewicz (2010)
The SYK tyrosine kinase: a crucial player in diverse biological functionsNature Reviews Immunology, 10
-
B. Levine, V. Deretic (2007)
Unveiling the roles of autophagy in innate and adaptive immunityNature Reviews. Immunology, 7
-
Bi-Cheng Liu, T. Tang, L. Lv, H. Lan (2018)
Renal tubule injury: a driving force toward chronic kidney disease.Kidney international, 93 3
-
Gilbert Kinsey (2014)
Macrophage dynamics in AKI to CKD progression.Journal of the American Society of Nephrology : JASN, 25 2
-
L. Lv, P. Tang, Chunjie Li, Y. You, Jinhong Li, Xiao-ru Huang, Jun Ni, M. Feng, B. Liu, H. Lan (2017)
The pattern recognition receptor, Mincle, is essential for maintaining the M1 macrophage phenotype in acute renal inflammation.Kidney international, 91 3
-
W. Henne, Nicholas Buchkovich, S. Emr (2011)
The ESCRT pathway.Developmental cell, 21 1
-
S. Uchino, J. Kellum, R. Bellomo, G. Doig, H. Morimatsu, S. Morgera, M. Schetz, I. Tan, C. Bouman, Ettiene Macedo, N. Gibney, A. Tolwani, C. Ronco (2005)
Acute renal failure in critically ill patients: a multinational, multicenter study.JAMA, 294 7
-
Yujia Yuan, Longhui Yuan, Jing-cheng Yang, Fei Liu, Shuyun Liu, Lan Li, Guangneng Liao, Xi Tang, Jingqiu Cheng, Jingping Liu, Younan Chen, Yanrong Lu (2024)
Autophagy-deficient macrophages exacerbate cisplatin-induced mitochondrial dysfunction and kidney injury via miR-195a-5p-SIRT3 axisNature Communications, 15
-
Simona Migliano, S. Schultz, E. Wenzel, Szabolcs Takáts, Dan Liu, Silje Mørk, Kia-Wee Tan, T. Rusten, C. Raiborg, Harald Stenmark (2023)
Removal of hypersignaling endosomes by simaphagyAutophagy, 20
-
O. Kishta, Antoine Sabourin, Leora Simon, T. McGovern, M. Raymond, Tristan Galbas, A. Majdoubi, S. Ishido, James Martin, J. Thibodeau (2018)
March1 E3 Ubiquitin Ligase Modulates Features of Allergic Asthma in an Ovalbumin-Induced Mouse Model of Lung InflammationJournal of Immunology Research, 2018
-
H. Rabb, M. Griffin, D. McKay, Sundararaman Swaminathan, P. Pickkers, M. Rosner, J. Kellum, C. Ronco (2016)
Inflammation in AKI: Current Understanding, Key Questions, and Knowledge Gaps.Journal of the American Society of Nephrology : JASN, 27 2
-
Yufeng Zhu, Jiexing Tan, Yuanzhan Wang, Yuhong Gong, Xiaoyong Zhang, Ziguo Yuan, Xinyu Lu, Huifang Tang, Zhiming Zhang, Xiaotao Jiang, Wei Zhu, Li Gong (2024)
Atg5 deficiency in macrophages protects against kidney fibrosis via the CCR6-CCL20 axisCell Communication and Signaling : CCS, 22
-
Xingyu Li, Manni Wang, Siqi Ming, Zibin Liang, Xiaoxia Zhan, Can Cao, Siping Liang, Qiaojuan Liu, Yuqi Shang, Juanfeng Lao, Shunxian Zhang, Liangjian Kuang, L. Geng, Zhi-long Wu, Minhao Wu, S. Gong, Yongjian Wu (2021)
TARM-1 Is Critical for Macrophage Activation and Th1 Response in Mycobacterium tuberculosis InfectionThe Journal of Immunology, 207
-
Baihui Li, Y. Yue, C. Dong, Yong-bing Shi, S. Xiong (2014)
Blockade of macrophage autophagy ameliorates activated lymphocytes-derived DNA induced murine lupus possibly via inhibition of proinflammatory cytokine production.Clinical and experimental rheumatology, 32 5
-
Chiara Poluzzi, M. Nastase, Jinyang Zeng-Brouwers, Heiko Roedig, L. Hsieh, J. Michaelis, E. Buhl, Flávia Rezende, Yosif Manavski, A. Bleich, P. Boor, R. Brandes, J. Pfeilschifter, E. Stelzer, Christian Münch, I. Dikič, C. Brandts, R. Iozzo, M. Wygrecka, L. Schaefer (2019)
Biglycan evokes autophagy in macrophages via a novel CD44/Toll-like receptor 4 signaling axis in ischemia/reperfusion injury.Kidney international, 95 3
-
R. Murugan, J. Kellum (2011)
Acute kidney injury: what's the prognosis?Nature Reviews Nephrology, 7
-
Kyung-Jin Cho, E. Walseng, S. Ishido, P. Roche (2015)
Ubiquitination by March-I prevents MHC class II recycling and promotes MHC class II turnover in antigen-presenting cellsProceedings of the National Academy of Sciences, 112
-
Ya-Ting Wang, Amy Sansone, Asya Smirnov, Christina Stallings, Anthony Orvedahl (2022)
Myeloid autophagy genes protect mice against fatal TNF- and LPS-induced cytokine storm syndromesAutophagy, 19
- Publisher
- Taylor & Francis
- Copyright
- © 2024 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.
- ISSN
- 1554-8627
- eISSN
- 1554-8635
- DOI
- 10.1080/15548627.2024.2393926
- Publisher site
- See Article on Publisher Site
Abstract
Macroautophagy/autophagy activation in renal tubular epithelial cells protects against acute kidney injury (AKI). However, the role of immune cell autophagy, such as that involving macrophages, in AKI remains unclear. In this study, we discovered that macrophage autophagy was an adaptive response during AKI as mice with macrophage-specific autophagy deficiency (atg5 −/−) exhibited higher serum creatinine, more severe renal tubule injury, increased infiltration of ADGRE1/F4/80+ macrophages, and elevated expression of inflammatory factors compared to WT mice during AKI induced by either LPS or unilateral ischemia-reperfusion. This was further supported by adoptive transfer of atg5 −/− macrophages, but not WT macrophages, to cause more severe AKI in clodronate liposomes-induced macrophage depletion mice. Similar results were also obtained in vitro that bone marrow-derived macrophages (BMDMs) lacking Atg5 largely increased pro-inflammatory cytokine expression in response to LPS and IFNG. Mechanistically, we uncovered that atg5 deletion significantly upregulated the protein expression of TARM1 (T cell-interacting, activating receptor on myeloid cells 1), whereas inhibition of TARM1 suppressed LPS- and IFNG-induced inflammatory responses in atg5 −/− RAW 264.7 macrophages. The E3 ubiquitin ligases MARCHF1 and MARCHF8 ubiquitinated TARM1 and promoted its degradation in an autophagy-dependent manner, whereas silencing or mutation of the functional domains of MARCHF1 and MARCHF8 abolished TARM1 degradation. Furthermore, we found that ubiquitinated TARM1 was internalized from plasma membrane into endosomes, and then recruited by the ubiquitin-binding autophagy receptors TAX1BP1 and SQSTM1 into the autophagy-lysosome pathway for degradation. In conclusion, macrophage autophagy protects against AKI by inhibiting renal inflammation through the MARCHF1- and MARCHF8-mediated degradation of TARM1. Abbreviations: AKI, acute kidney injury; ATG, autophagy related; Baf, bafilomycin A1; BMDMs, bone marrow-derived macrophages; CCL2/MCP-1, C-C motif chemokine ligand 2; CHX, cycloheximide; CQ, chloroquine; IFNG, interferon gamma; IL, interleukin; IR, ischemia-reperfusion; MAP1LC3/LC3, microtubule-associated protein 1 light chain 3; LPS, lipopolysaccharide; MARCHF, membrane associated ring-CH-type finger; NC, negative control; NFKB, nuclear factor of kappa light polypeptide gene enhancer in B cells; NLRP3, NLR family, pyrin domain containing 3; NOS2, nitric oxide synthase 2, inducible; Rap, rapamycin; Wort, wortmannin; RT-qPCR, real-time quantitative polymerase chain reaction; Scr, serum creatinine; SEM, standard error of mean; siRNA, small interfering RNA; SYK, spleen tyrosine kinase; TARM1, T cell-interacting, activating receptor on myeloid cells 1; TAX1BP1, Tax1 (human T cell leukemia virus type I) binding protein 1; TECs, tubule epithelial cells; TNF, tumor necrosis factor; WT, wild type.
Journal
Autophagy – Taylor & Francis
Published: Jan 2, 2025
Keywords: Adoptive transfer; Atg5; bone marrow-derived macrophages; inflammation; ischemia-reperfusion; tubular epithelial cells