Immune cell landscaping reveals a protective role for regulatory T cells during kidney injury and fibrosis
Fernanda do Valle Duraes, … , Guglielmo Roma, Max Warncke
Fernanda do Valle Duraes, … , Guglielmo Roma, Max Warncke
Published February 13, 2020
Citation Information: JCI Insight. 2020;5(3):e130651. https://doi.org/10.1172/jci.insight.130651.
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Research Article Immunology Nephrology

Immune cell landscaping reveals a protective role for regulatory T cells during kidney injury and fibrosis

Abstract

Acute kidney injury (AKI) and chronic kidney diseases are associated with high mortality and morbidity. Although the underlying mechanisms determining the transition from acute to chronic injury are not completely understood, immune-mediated processes are critical in renal injury. We have performed a comparison of 2 mouse models leading to either kidney regeneration or fibrosis. Using global gene expression profiling we could identify immune-related pathways accounting for the majority of the observed transcriptional changes during fibrosis. Unbiased examination of the immune cell composition, using single-cell RNA sequencing, revealed major changes in tissue-resident macrophages and T cells. Following injury, there was a marked increase in tissue-resident IL-33R+ and IL-2Ra+ regulatory T cells (Tregs). Expansion of this population before injury protected the kidney from injury and fibrosis. Transcriptional profiling of Tregs showed a differential upregulation of regenerative and proangiogenic pathways during regeneration, whereas in the fibrotic environment they expressed markers of hyperactivation and fibrosis. Our data point to a hitherto underappreciated plasticity in Treg function within the same tissue, dictated by environmental cues. Overall, we provide a detailed cellular and molecular characterization of the immunological changes during kidney injury, regeneration, and fibrosis.

Authors

Fernanda do Valle Duraes, Armelle Lafont, Martin Beibel, Kea Martin, Katy Darribat, Rachel Cuttat, Annick Waldt, Ulrike Naumann, Grazyna Wieczorek, Swann Gaulis, Sabina Pfister, Kirsten D. Mertz, Jianping Li, Guglielmo Roma, Max Warncke

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Figure 1

Kidney regeneration and fibrosis characterization after ischemia/reperfusion injury (IRI) reveal sustained dysregulation in immune system–related pathways during kidney fibrosis.

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Kidney regeneration and fibrosis characterization after ischemia/reperfu...
Time course after kidney injury in regeneration and fibrosis models. Mice were subjected to 30 minutes of unilateral left renal IRI, with (regeneration) or without contralateral kidney nephrectomy (fibrosis). (A) Morphometric quantification of α-smooth muscle actin (SMA) staining on kidney sections at indicated time points from regeneration (red line) and fibrosis (blue line). (B) qPCR analysis of the indicated genes, on regeneration (red line) and fibrosis (blue line) samples for the indicated time points, as fold change relative to control samples. (C) Volcano plots showing the fold change (FC) versus P value of differentially expressed (DE) genes in regeneration (top) and fibrosis (bottom) for the indicated time points (in days), compared with age- and sex-matched naive and sham control mice. Numbers indicate upregulated (red) FC > 2, or downregulated genes (blue) FC < 2; P < 0.05. Selected kidney injury and fibrosis biomarker genes are highlighted. (D) Heatmaps showing the average FC of selected upregulated genes from key regulated pathways. Results are representative of 1 (regeneration model) or 2 (fibrosis model) independent experiments, with 3 to 5 mice per time point/condition. Mean ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001 compared with controls by 2-way ANOVA followed by Dunnett’s post hoc test for multiple comparisons (A and B).