Exclusive CX3CR1 dependence of kidney DCs impacts glomerulonephritis progression
Katharina Hochheiser, Christoph Heuser, Torsten A. Krause, Simon Teteris, Anissa Ilias, Christina Weisheit, Florian Hoss, André P. Tittel, Percy A. Knolle, Ulf Panzer, Daniel R. Engel, Pierre-Louis Tharaux, Christian Kurts
Katharina Hochheiser, Christoph Heuser, Torsten A. Krause, Simon Teteris, Anissa Ilias, Christina Weisheit, Florian Hoss, André P. Tittel, Percy A. Knolle, Ulf Panzer, Daniel R. Engel, Pierre-Louis Tharaux, Christian Kurts
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Research Article Nephrology

Exclusive CX3CR1 dependence of kidney DCs impacts glomerulonephritis progression

Abstract

DCs and macrophages both express the chemokine receptor CX3CR1. Here we demonstrate that its ligand, CX3CL1, is highly expressed in the murine kidney and intestine. CX3CR1 deficiency markedly reduced DC numbers in the healthy and inflamed kidney cortex, and to a lesser degree in the kidney medulla and intestine, but not in other organs. CX3CR1 also promoted influx of DC precursors in crescentic glomerulonephritis, a DC-dependent aggressive type of nephritis. Disease severity was strongly attenuated in CX3CR1-deficient mice. Primarily CX3CR1-dependent DCs in the kidney cortex processed antigen for the intrarenal stimulation of T helper cells, a function important for glomerulonephritis progression. In contrast, medullary DCs played a specialized role in inducing innate immunity against bacterial pyelonephritis by recruiting neutrophils through rapid chemokine production. CX3CR1 deficiency had little effect on the immune defense against pyelonephritis, as medullary DCs were less CX3CR1 dependent than cortical DCs and because recruited neutrophils produced chemokines to compensate for the DC paucity. These findings demonstrate that cortical and medullary DCs play specialized roles in their respective kidney compartments. We identify CX3CR1 as a potential therapeutic target in glomerulonephritis that may involve fewer adverse side effects, such as impaired anti-infectious defense or compromised DC functions in other organs.

Authors

Katharina Hochheiser, Christoph Heuser, Torsten A. Krause, Simon Teteris, Anissa Ilias, Christina Weisheit, Florian Hoss, André P. Tittel, Percy A. Knolle, Ulf Panzer, Daniel R. Engel, Pierre-Louis Tharaux, Christian Kurts

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Figure 2

Dependence of kidney DCs and MPs on CX3CR1 in NTN.

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Dependence of kidney DCs and MPs on CX3CR1 in NTN. (A) Absolute number...
(A) Absolute numbers of GFP+ DCs and MPs per kidney in CX3CR1GFP/+ and CX3CR1GFP/GFP mice on day 10 after NTN induction. Results are combined from 4 individual experiments. (B) Ly6C expression on GFP+ bone marrow cells from CX3CR1GFP/+ and CX3CR1GFP/GFP mice before transfer into nephritic WT mice. (C) Representative FACS plots of CD11c and MHC-II expression on GFP+ cells recovered from kidneys of nephritic WT mice, which had received 106 GFP+ bone marrow cells from CX3CR1GFP/+ or CX3CR1GFP/GFP mice 96 hours before. (D) Proportion of GFP+ cells among CD45+ cells in the kidneys of nephritic WT mice 48 and 96 hours after transfer of 106 GFP+ bone marrow cells from CX3CR1GFP/+ or CX3CR1GFP/GFP mice. (E) Proportion of GFP+ cells among CD45+ cells in the spleens of nephritic WT mice 96 hours after transfer of 106 GFP+ bone marrow cells from CX3CR1GFP/+ or CX3CR1GFP/GFP mice. Data points represent (A and E) individual mice or (D) organs. Results are representative 2 individual experiments, with 3 to 4 mice per group. Statistical significance was tested with (A) the unpaired Student’s t test or (D) the 2-tailed Mann-Whitney test.