Monique Kerroch scite author profile

Kidney diseases impart a vast burden on affected individuals and the overall health care system. Progressive loss of renal parenchymal cells and functional decline following injury are often observed. Notch-1 and -2 receptors are crucially involved in nephron development and contribute to inflammatory kidney diseases. We specifically determined the participation of receptor Notch-3 following tubulointerstitial injury and in inflammatory responses. Here we show by heat map analyses that Notch-3 transcripts are up-regulated in human kidney diseases. A similar response was corroborated with kidney cells following TGF-β exposure in vitro. The murine unilateral ureteral obstruction (UUO) model mirrors hallmarks of tubulointerstitial injury and damage. A subset of tubular and interstitial cells demonstrated up-regulated Notch-3 receptor expression in diseased animals. We hypothesized a relevance of Notch-3 receptors for the chemotactic response. To address this question, animals with genetic ablation of receptor Notch-3 were analysed following UUO. As a result, we found that Notch-3-deficient animals are protected from tubular injury and cell loss with significantly reduced interstitial collagen deposition. Monocytic cell infiltration was significantly reduced and retarded, likely due to abrogated chemokine synthesis. A cell model was set up that mimics enhanced receptor Notch-3 expression and activation. Here a pro-mitogenic response was seen with activated signalling in tubular cells and fibroblasts. In conclusion, Notch-3 receptor fulfils non-redundant roles in the inflamed kidney that may not be replaced by other Notch receptor family members. Thus, specific blockade of this receptor may be suitable as therapeutic option to delay progression of kidney disease.

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Genetic inhibition of discoidin domain receptor 1 protects mice against crescentic glomerulonephritis

Kerroch

Guerrot

Vandermeersch

et al. 2012

FASEB j.

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This study investigated the role of discoidin domain receptor 1 (DDR1), a collagen receptor that displays tyrosine-kinase activity, in the development of glomerulonephritis. Crescentic glomerulonephritis was induced in DDR1-deficient mice and their wild-type (WT) littermates as controls, by injection of alloimmune sheep nephrotoxic serum (NTS). Histological, functional and transcriptomic studies were performed. Glomerulonephritis produced a 17-fold increase of DDR1 expression, predominantly in glomeruli. DDR1 deletion protected NTS-treated mice against glomerular disease (proteinuria/creatininuria 5.5±1.1 vs. 13.2±0.8 g/mmol in WT, crescents 12±2 vs. 24±2% of glomeruli, urea 16±2 vs. 28±5 mM), hypertension (123±11 vs. 157±8 mmHg), and premature death (70 vs. 10% survival) (all P<0.05). Reciprocal stimulation between DDR1 and interleukin-1b expression in vivo and in cultured podocytes suggested a positive feed-back loop between DDR1 and inflammation. In NTS-treated WT mice, administration of DDR1-specific antisense oligodeoxynucleotides decreased DDR1 expression (-56%) and protected renal function and structure, including nephrin expression (4.2±1.4 vs. 0.9±0.4 arbitrary units, P<0.05), compared to control mice receiving scrambled oligodeoxynucleotides. The therapeutic potential of this approach was reinforced by the observation of increased DDR1 expression in glomeruli of patients with lupus nephritis and Goodpasture's syndrome. These results prompt further interest in DDR1 blockade strategies, especially in the treatment of glomerulonephritis.

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Monique Kerroch

Notch‐3 receptor activation drives inflammation and fibrosis following tubulointerstitial kidney injury

Genetic inhibition of discoidin domain receptor 1 protects mice against crescentic glomerulonephritis

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