Abstract
Alport syndrome is a genetic disorder characterized by a defective glomerular basement membrane, tubulointerstitial fibrosis, inflammation, and progressive renal failure. IL-11 was recently implicated in fibrotic kidney disease, but its role in Alport syndrome is unknown. We determined IL-11 expression by molecular analyses and in an Alport syndrome mouse model. We assessed the effects of a neutralizing IL-11 antibody (×203) versus an IgG control in Col4a3-/- mice (lacking the gene encoding a type IV collagen component) on renal tubule damage, function, fibrosis, and inflammation. Effects of ×203, the IgG control, an angiotensin-converting enzyme (ACE) inhibitor (ramipril), or ramipril+X203 on lifespan were also studied. In Col4a3-/- mice, as kidney failure advanced, renal IL-11 levels increased, and IL-11 expression localized to tubular epithelial cells. The IL-11 receptor (IL-11RA1) is expressed in tubular epithelial cells and podocytes and is upregulated in tubular epithelial cells of Col4a3-/- mice. Administration of ×203 reduced albuminuria, improved renal function, and preserved podocyte numbers and levels of key podocyte proteins that are reduced in Col4a3-/- mice; these effects were accompanied by reduced fibrosis and inflammation, attenuation of epithelial-to-mesenchymal transition, and increased expression of regenerative markers. X203 attenuated pathogenic ERK and STAT3 pathways, which were activated in Col4a3-/- mice. The median lifespan of Col4a3-/- mice was prolonged 22% by ramipril, 44% with ×203, and 99% with ramipril+X203. In an Alport syndrome mouse model, renal IL-11 is upregulated, and neutralization of IL-11 reduces epithelial-to-mesenchymal transition, fibrosis, and inflammation while improving renal function. Anti-IL-11 combined with ACE inhibition synergistically extends lifespan. This suggests that a therapeutic approach targeting IL-11 holds promise for progressive kidney disease in Alport syndrome.
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