The Impact of a Western Diet High in Phosphate on the CKD-MBD in an Alport Syndrome Model
Abstract
Background
Chronic kidney disease – mineral bone disorder (CKD-MBD) is a syndrome that begins early in CKD, contributes to CKD-associated mortality, and includes components of FGF23 elevation, αklotho deficiency, CKD-stimulated vascular disease, and renal osteodystrophy. Hyperphosphatemia, occurring in later stages of CKD, is also driven by mechanisms of CKD-MBD, and has been shown to stimulate vascular calcification. In a mouse model of Alport CKD that is resistant to vascular calcification, we examine the effects of a high-phosphate Western-type diet on the CKD-MBD, and test whether the diet promotes induction of vascular calcification.
Methods
An X-linked Col4a5 deficient murine homolog of Alport Syndrome (CKD) and wild type (WT) littermates were fed an animal protein 1.2% high phosphate diet or a standard vegetable protein diet. At disease progression equivalent to CKD stage 4-5, we examined kidney histology for fibrosis, blood for BUN (marker of CKD), and markers of CKD-MBD disease progression, kidney tissue for klotho production, and aorta histology and tissue mRNA and protein analysis for vascular calcification.
Results
The Western high Pi diet produced hyperphosphatemia in the CKD animals compared to WT and increased plasma PTH (1880 from 110 pg / ml), FGF23 c-term (670 from 120 pg / ml), and FGF23 intact (3780 from 280 pg / ml), and reduced kidney klotho mRNA and protein (57-67% reduction) (all p < 0.01). Referenced against the CKD animals fed vegetable-based diet, the Western high phosphate-fed CKD animals showed higher levels of plasma PTH and FGF23s. In the wild-type control mice with normal renal function, Western diet produced increased PTH, intact FGF23, and reduced renal klotho (all p <0.01). Vascular smooth muscle transdifferentiation and vascular calcification was not induced by Western high phosphate diet in this model of CKD.
Conclusions
Our results show that a Western-style high-phosphate diet advances elements of the CKD-MBD. Renal klotho, FGF23 and PTH are affected by diet even with normal kidney function, suggesting a need for early intervention in the management of phosphate homeostasis as a component of CKD therapy. Additionally, CKD, klotho, and FGF23 all are associated with early aging. Therefore, our findings suggest that a Western high Pi diet accelerates aging and would contribute to the systemic complications of CKD – cardiac disease, osteodystrophy, and vascular disease.
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