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Live Imaging of Monocyte Subsets in Immune Complex-Mediated Glomerulonephritis Reveals Distinct Phenotypes and Effector Functions

Tabitha Turner‐Stokes, Ana Garcia Diaz, Damilola Pinheiro, Maria Prendecki, Stephen P. McAdoo, Candice Roufosse, H. Terence Cook, Charles D. Pusey, Kevin Woollard

2020Journal of the American Society of Nephrology30 citationsDOIOpen Access PDF

Abstract

Significance Statement Monocytes and macrophages are important in mediating crescentic GN (CrGN), but little work has been done to phenotype the subpopulations involved and determine their respective contributions to glomerular inflammation. Using nephrotoxic nephritis in the rat as a clinically relevant experimental model of CrGN, we show that this is a predominantly intravascular disease and that glomerular inflammation and damage is driven by dynamic interactions between intravascular blood monocytes and the endothelium. Monocyte subsets had distinct phenotypes and effector functions: non-classical monocytes were recruited to the glomerulus first, and may orchestrate the inflammatory response. Later recruitment of classical monocytes was associated with glomerular damage and proteinuria. Targeting specific monocyte subpopulations may generate less toxic and more effective therapies for patients with GN. Background Immune complexes within glomerular capillary walls cause crescentic GN (CrGN). Monocytes and macrophages are important in mediating CrGN, but little work has been done to phenotype the subpopulations involved and determine their respective contributions to glomerular inflammation. Methods Live glomerular imaging using confocal microscopy monitored intravascular monocyte subset behavior during nephrotoxic nephritis (NTN) in a novel WKY-hCD68-GFP monocyte/macrophage reporter rat strain. Flow cytometry and qPCR further analyzed ex vivo the glomerular leukocyte infiltrate during NTN. Results Non-classical monocytes surveyed the glomerular endothelium via lymphocyte function-associated antigen 1 (LFA-1) in the steady state. During NTN, non-classical monocytes were recruited first, but subsequent recruitment and retention of classical monocytes was associated with glomerular damage. Monocytes recruited to the glomerular vasculature did not undergo transendothelial migration. This finding suggests that inflammation in immune complex-mediated CrGN is predominantly intravascular, driven by dynamic interactions between intravascular blood monocytes and the endothelium. Glomerular endothelium and non-classical monocytes overexpressed a distinct chemokine axis, which may orchestrate inflammatory myeloid cell recruitment and expression of damage mediators. Reduced classical monocyte recruitment in Lewis rats during NTN confirmed a role for CD16 in mediating glomerular damage. Conclusions Monocyte subsets with distinct phenotypes and effector functions may be important in driving inflammation in experimental CrGN resulting from immune complexes formed within the glomerular capillary wall. LFA-1–dependent endothelial surveillance by non-classical monocytes may detect immune complexes through CD16, orchestrating the inflammatory response through intravascular retention of classical monocytes, which results in glomerular damage and proteinuria.

Topics & Concepts

MonocyteImmunologyCD16InflammationImmune systemGlomerulonephritisChemokineEndotheliumBiologyMedicineCell biologyKidneyCD8EndocrinologyCD3Immune cells in cancerRenal Diseases and GlomerulopathiesNeutrophil, Myeloperoxidase and Oxidative Mechanisms