JAML promotes acute kidney injury mainly through a macrophage-dependent mechanism
Wei Huang, … , Yu Sun, Fan Yi
Wei Huang, … , Yu Sun, Fan Yi
Published June 16, 2022
Citation Information: JCI Insight. 2022;7(14):e158571. https://doi.org/10.1172/jci.insight.158571.
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Research Article Nephrology

JAML promotes acute kidney injury mainly through a macrophage-dependent mechanism

Abstract

Although macrophages are undoubtedly attractive therapeutic targets for acute kidney injury (AKI) because of their critical roles in renal inflammation and repair, the underlying mechanisms of macrophage phenotype switching and efferocytosis in the regulation of inflammatory responses during AKI are still largely unclear. The present study elucidated the role of junctional adhesion molecule–like protein (JAML) in the pathogenesis of AKI. We found that JAML was significantly upregulated in kidneys from 2 different murine AKI models including renal ischemia/reperfusion injury (IRI) and cisplatin-induced AKI. By generation of bone marrow chimeric mice, macrophage-specific and tubular cell–specific Jaml conditional knockout mice, we demonstrated JAML promoted AKI mainly via a macrophage-dependent mechanism and found that JAML-mediated macrophage phenotype polarization and efferocytosis is one of the critical signal transduction pathways linking inflammatory responses to AKI. Mechanistically, the effects of JAML on the regulation of macrophages were, at least in part, associated with a macrophage-inducible C-type lectin–dependent mechanism. Collectively, our studies explore for the first time to our knowledge new biological functions of JAML in macrophages and conclude that JAML is an important mediator and biomarker of AKI. Pharmacological targeting of JAML-mediated signaling pathways at multiple levels may provide a novel therapeutic strategy for patients with AKI.

Authors

Wei Huang, Bi-Ou Wang, Yun-Feng Hou, Yi Fu, Si-Jia Cui, Jing-Han Zhu, Xin-Yu Zhan, Rong-Kun Li, Wei Tang, Ji-Chao Wu, Zi-Ying Wang, Mei Wang, Xiao-Jie Wang, Yan Zhang, Min Liu, Yu-Sheng Xie, Yu Sun, Fan Yi

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Figure 6

JAML regulates macrophage phenotypic polarization via a Mincle-dependent mechanism.

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JAML regulates macrophage phenotypic polarization via a Mincle-dependent...
(A and B) BMDMs from WT or Jaml–/– mice were serum starved for 4 hours (M0) and then polarized to M1 (LPS) or M2 (IL-4) for 8 hours. Media were removed, M1 macrophages were treated with M2 stimuli (IL-4), and M2 macrophages were treated with M1 stimuli (LPS) for an additional 8 hours. Real-time PCR was performed to measure Arg1 and Ccl8 expression in M1 macrophages polarized to M2 (A). Il6 and iNos gene expression was measured in M2 macrophages polarized to M1 (B) (n = 7). (C) Flow cytometry analysis of renal macrophages in the injured kidney after IRI. CD45-positive cells were divided into the F4/80lo and F4/80hi groups. Representative flow cytometry analysis of M1 (CD80hi) and M2 (CD206hi) cell populations in F4/80lo and F4/80hi macrophages isolated from the kidney in different groups of mice. SSC, side scatter. (D) Representative flow cytometry histogram showing cell surface marker CD206 (M2) and CD80 (M1) expression on 2 subtypes of macrophages and quantitative analysis of MFI of CD206-AF647 or CD80-PE-Cy7 (n = 6). Data are mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001. Two-way ANOVA test (A and B), 2-tailed Student’s unpaired t test (D).