High phosphate feeding induced arterial medial calcification in uremic rats: Roles of Lanthanum carbonate on protecting vasculature

Abstract

AimsHigh cardiovascular mortality in patients with end-stage renal disease is closely associated with arterial medial calcification (AMC) caused by hyperphosphatemia, the mechanism of which associated hormones (FGF-23, klotho) and osteochondrogenic events is unclear. We examined the effect of Lanthanum carbonate on AMC via regulating the abnormalities in phosphorus metabolism of uremic rats. Main methods45 healthy SD rats were randomly divided into 3 groups: Normal group (n=15), CRF group (n=15), CRF diet supplemented with 2% La (n=15). AMC in great arteries were evaluated by VonKossa. Osteochondrogenic specific genes were analyzed by Immunohistochemistry and qRT-PCR. Serum FGF-23 and klotho levels were detected by ELISA kit. Key findingsSerum phosphate was markedly increased in CRF group (6.94±0.97mmol/L) and 2%La group (5.12±0.84mmol/L) at week 4, while the latter became hypophosphatemic (2.92±0.73mmol/L vs CRF group, p<0.01) at week 10. Inhibitory effect of 2%La on development of AMC was reflected by downregulated Runx2, Osterix, BSP, Osteocalcin and collagenII and a reduction of FGF-23 at week 4(vs CRF group, p<0.01) but not week 10. SignificanceBeneficial effects of Lanthanum carbonate on progression of AMC in CRF could be mainly due to the decreased phosphate retention and FGF-23 in early stage and likewise a reduction of bone-associated proteins via osteochondrogenic pathway. Lanthanum carbonate has no effect on soluble klotho and serum FGF-23 in late stage of CRF.