Publication date: Available online 9 February 2017
Source:Cell Metabolism
Author(s): Annelie Falkevall, Annika Mehlem, Isolde Palombo, Benjamin Heller Sahlgren, Lwaki Ebarasi, Liqun He, A. Jimmy Ytterberg, Hannes Olauson, Jonas Axelsson, Birgitta Sundelin, Jaakko Patrakka, Pierre Scotney, Andrew Nash, Ulf Eriksson
Diabetic kidney disease (DKD) is the most common cause of severe renal disease, and few treatment options are available today that prevent the progressive loss of renal function. DKD is characterized by altered glomerular filtration and proteinuria. A common observation in DKD is the presence of renal steatosis, but the mechanism(s) underlying this observation and to what extent they contribute to disease progression are unknown. Vascular endothelial growth factor B (VEGF-B) controls muscle lipid accumulation through regulation of endothelial fatty acid transport. Here, we demonstrate in experimental mouse models of DKD that renal VEGF-B expression correlates with the severity of disease. Inhibiting VEGF-B signaling in DKD mouse models reduces renal lipotoxicity, re-sensitizes podocytes to insulin signaling, inhibits the development of DKD-associated pathologies, and prevents renal dysfunction. Further, we show that elevated VEGF-B levels are found in patients with DKD, suggesting that VEGF-B antagonism represents a novel approach to treat DKD.
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Human studies have highlighted that hyperglycemia may not be the underlying cause of diabetic kidney disease (DKD). Falkevall et al. highlight a role for VEGF-B in renal lipotoxicity in mouse models and patients, offering a potential novel therapeutic approach to DKD.http://ift.tt/2kWQvnX
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