Patrolling monocytes promote the pathogenesis of early lupus-like glomerulonephritis
Jeeba Kuriakose, … , Peter Vogel, Hans Häcker
Jeeba Kuriakose, … , Peter Vogel, Hans Häcker
Published April 29, 2019
Citation Information: J Clin Invest. 2019;129(6):2251-2265. https://doi.org/10.1172/JCI125116.
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Research Article Inflammation

Patrolling monocytes promote the pathogenesis of early lupus-like glomerulonephritis

Abstract

Systemic lupus erythematosus (SLE) is a complex autoimmune disease with genetic and environmental contributions. Hallmarks of the disease are the appearance of immune complexes (IC) containing autoreactive Abs and TLR-activating nucleic acids, whose deposition in kidney glomeruli is suspected to promote tissue injury and glomerulonephritis (GN). Here, using a mouse model based on the human SLE susceptibility locus TNFAIP3-interacting protein 1 (TNIP1, also known as ABIN1), we investigated the pathogenesis of GN. We found that GN was driven by TLRs but, remarkably, proceeded independently of ICs. Rather, disease in 3 different mouse models and patients with SLE was characterized by glomerular accumulation of patrolling monocytes (PMos), a cell type with an emerging key function in vascular inflammation. Consistent with such function in GN, monocyte-specific deletion of ABIN1 promoted kidney disease, whereas selective elimination of PMos provided protection. In contrast to GN, PMo elimination did not protect from reduced survival or disease symptoms such as IC generation and splenomegaly, suggesting that GN and other inflammatory processes are governed by distinct pathogenic mechanisms. These data identify TLR-activated PMos as the principal component of an intravascular process that contributes to glomerular inflammation and kidney injury.

Authors

Jeeba Kuriakose, Vanessa Redecke, Cliff Guy, Jingran Zhou, Ruiqiong Wu, Sirish K. Ippagunta, Heather Tillman, Patrick D. Walker, Peter Vogel, Hans Häcker

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Figure 4

TLR-dependent accumulation of PMos in glomerular capillaries of Tnip1–/– mice.

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TLR-dependent accumulation of PMos in glomerular capillaries of Tnip1–/–...
(A) Kidney histology (IHC) images (scale bars: 50 μm) and (B) flow cytometric analysis of cells isolated from kidneys of 12-week-old Tnip1+/+ and Tnip1–/– mice. (C) Total numbers of CD43+ PMos, F4/80hi macrophages, Ly6G+ neutrophils, Ly6Chi monocytes, and F4/80MHC-II+ DCs isolated from kidneys of 16-week-old Tnip1+/+ and Tnip1–/– mice. n = 4. (D) Total number of cells of the indicated immune cell types isolated from PB of 12-week-old Tnip1+/+ and Tnip1–/– mice as defined in Supplemental Figure 3B. (E) Flow cytometric analysis of the indicated immune cell populations isolated from kidneys of a Tnip1–/– mouse 10 minutes after i.v. injection of anti-CD45 Abs. This result was confirmed in a second experiment. (F and G) Total number of cells of the indicated immune cell types isolated from kidneys of 16-week-old mice of the indicated genotypes. Data represent the mean ± SD. *P < 0.05, **P < 0.01, and ***P < 0.001, by Mann-Whitney U test (C and D) and 1-way ANOVA with Tukey’s multiple comparisons test (F and G). Symbols represent data from individual mice.