Integrin β1–rich extracellular vesicles of kidney recruit Fn1+ macrophages to aggravate ischemia-reperfusion–induced inflammation
Wenjuan Wang, Xuejing Ren, Xiangmei Chen, Quan Hong, Guangyan Cai
Wenjuan Wang, Xuejing Ren, Xiangmei Chen, Quan Hong, Guangyan Cai
View: Text | PDF
Research Article Nephrology

Integrin β1–rich extracellular vesicles of kidney recruit Fn1+ macrophages to aggravate ischemia-reperfusion–induced inflammation

Abstract

Ischemia-reperfusion injury–induced (IRI-induced) acute kidney injury is accompanied by mononuclear phagocyte (MP) invasion and inflammation. However, systematic analysis of extracellular vesicle–carried (EV-carried) proteins mediating intercellular crosstalk in the IRI microenvironment is still lacking. Multiomics analysis combining single-cell RNA-Seq data of kidney and protein profiling of kidney-EV was used to elucidate the intercellular communication between proximal tubular cells (PTs) and MP. Targeted adhesion and migration of various MPs were caused by the secretion of multiple chemokines as well as integrin β1–rich EV by ischemic-damaged PTs after IRI. These recruited MPs, especially Fn1+ macrophagocyte, amplified the surviving PT’s inflammatory response by secreting the inflammatory factors TNF-α, MCP-1, and thrombospondin 1 (THBS-1), which could interact with integrin β1 to promote more MP adhesion and interact with surviving PT to further promote the secretion of IL-1β. However, GW4869 reduced MP infiltration and maintained a moderate inflammatory level likely by blocking EV secretion. Our findings establish the molecular bases by which chemokines and kidney-EV mediate PT-MP crosstalk in early IRI and provide insights into systematic intercellular communication.

Authors

Wenjuan Wang, Xuejing Ren, Xiangmei Chen, Quan Hong, Guangyan Cai

×

Figure 6

Unique protein profile and functional identification of EV isolated from sham and IRI kidneys.

Options: View larger image (or click on image) Download as PowerPoint
Unique protein profile and functional identification of EV isolated from...
(AC) Identification of EV by electron microscopy (A), nanoparticle tracking analysis (NTA) (B), and Western blotting (C). (D) Volcano plot showing the differential protein expression of IRI-EV compared with sham-EV. (E) Heatmap showing cluster analysis of differentially expressed proteins in EV isolated from sham versus IRI kidneys. (F) KEGG pathway analysis of differential proteins in EV. (G) Heatmap showing the typical molecules involved in extracellular matrix–receptor (ECM-receptor) interactions. (H) Cell internalization of Dil-labeled EV (red). (I) Detection of cell migration ability after stimulation with sham-EV and IRI-EV. (J) The expression of CD86, Tnfa, Il1b, and Ccl2 detected by PCR after MPs had taken up tissue-derived EV. n = 3–4. Data are expressed as the mean ± SD. One-way ANOVA was used for comparisons of 3 or more groups. *P < 0.05, **P < 0.01. Scale bars: 50 μm (H) and 100 μm (I).