Increased FGF23 protects against detrimental cardio-renal consequences during elevated blood phosphate in CKD
Erica L. Clinkenbeard, Megan L. Noonan, Joseph C. Thomas, Pu Ni, Julia M. Hum, Mohammad Aref, Elizabeth A. Swallow, Sharon M. Moe, Matthew R. Allen, Kenneth E. White
Erica L. Clinkenbeard, Megan L. Noonan, Joseph C. Thomas, Pu Ni, Julia M. Hum, Mohammad Aref, Elizabeth A. Swallow, Sharon M. Moe, Matthew R. Allen, Kenneth E. White
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Research Article Endocrinology Genetics

Increased FGF23 protects against detrimental cardio-renal consequences during elevated blood phosphate in CKD

Abstract

The phosphaturic hormone FGF23 is elevated in chronic kidney disease (CKD). The risk of premature death is substantially higher in the CKD patient population, with cardiovascular disease (CVD) as the leading mortality cause at all stages of CKD. Elevated FGF23 in CKD has been associated with increased odds for all-cause mortality; however, whether FGF23 is associated with positive adaptation in CKD is unknown. To test the role of FGF23 in CKD phenotypes, a late osteoblast/osteocyte conditional flox-Fgf23 mouse (Fgf23fl/fl/Dmp1-Cre+/–) was placed on an adenine-containing diet to induce CKD. Serum analysis showed casein-fed Cre+ mice had significantly higher serum phosphate and blood urea nitrogen (BUN) versus casein diet and Cre– genotype controls. Adenine significantly induced serum intact FGF23 in the Cre– mice over casein-fed mice, whereas Cre+ mice on adenine had 90% reduction in serum intact FGF23 and C-terminal FGF23 as well as bone Fgf23 mRNA. Parathyroid hormone was significantly elevated in mice fed adenine diet regardless of genotype, which significantly enhanced midshaft cortical porosity. Echocardiographs of the adenine-fed Cre+ hearts revealed profound aortic calcification and cardiac hypertrophy versus diet and genotype controls. Thus, these studies demonstrate that increased bone FGF23, although associated with poor outcomes in CKD, is necessary to protect against the cardio-renal consequences of elevated tissue phosphate.

Authors

Erica L. Clinkenbeard, Megan L. Noonan, Joseph C. Thomas, Pu Ni, Julia M. Hum, Mohammad Aref, Elizabeth A. Swallow, Sharon M. Moe, Matthew R. Allen, Kenneth E. White

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Figure 2

Renal phenotypes under clamped FGF23.

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Renal phenotypes under clamped FGF23. (A) Consistent with high PTH, rena...
(A) Consistent with high PTH, renal expression of 1α-hydroxylase (CYP27b1) was increased in all mice fed the adenine diet and despite the highly elevated levels of FGF23 in the flox-Fgf23/Dmp1-Cre adenine-fed group. (B) Renal Klotho mRNA levels were reduced in the adenine-fed mice compared with the casein-fed groups. (C) Fibrosis marker Col1a1 was significantly upregulated with adenine diet administration compared with casein. These levels were maintained by 8 weeks on diet with no differences between genotypes. (D) H&E and Masson’s trichrome staining of the kidney tissue showed increased cell infiltration and fibrosis within the adenine-fed mice. Mineral accumulation detected by von Kossa staining was most pronounced in the adenine-fed flox-Fgf23/Dmp1-Cre+ group. Scale bars: 500 μm and 100 μm (insets). (E) Tnfa mRNA levels were found to be increased in both genotypes fed adenine compared with casein. Expression of inflammation markers Crp (F) and Il6 (G) mRNA was significantly induced in adenine-fed mice, but was also found at significantly higher levels in the adenine-fed flox-Fgf23/Dmp1-Cre+ mice compared with the adenine-fed flox-Fgf23/Dmp1-Cre group. (H) Runx2 mRNA expression, related to mineral deposition, was increased in both genotypes fed adenine compared with casein (n = 4–6 per group). *P < 0.05, **P < 0.01 versus casein diet within the same genotype; P < 0.05 versus Cre on the same diet.