Iron deficiency drives an autosomal dominant hypophosphatemic rickets (ADHR) phenotype in fibroblast growth factor-23 (Fgf23) knock-in mice

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2011-11-15
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American English
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Abstract

Autosomal dominant hypophosphatemic rickets (ADHR) is unique among the disorders involving Fibroblast growth factor 23 (FGF23) because individuals with R176Q/W and R179Q/W mutations in the FGF23 (176)RXXR(179)/S(180) proteolytic cleavage motif can cycle from unaffected status to delayed onset of disease. This onset may occur in physiological states associated with iron deficiency, including puberty and pregnancy. To test the role of iron status in development of the ADHR phenotype, WT and R176Q-Fgf23 knock-in (ADHR) mice were placed on control or low-iron diets. Both the WT and ADHR mice receiving low-iron diet had significantly elevated bone Fgf23 mRNA. WT mice on a low-iron diet maintained normal serum intact Fgf23 and phosphate metabolism, with elevated serum C-terminal Fgf23 fragments. In contrast, the ADHR mice on the low-iron diet had elevated intact and C-terminal Fgf23 with hypophosphatemic osteomalacia. We used in vitro iron chelation to isolate the effects of iron deficiency on Fgf23 expression. We found that iron chelation in vitro resulted in a significant increase in Fgf23 mRNA that was dependent upon Mapk. Thus, unlike other syndromes of elevated FGF23, our findings support the concept that late-onset ADHR is the product of gene-environment interactions whereby the combined presence of an Fgf23-stabilizing mutation and iron deficiency can lead to ADHR.

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Proc Natl Acad Sci U S A. 2011 Nov 15;108(46):E1146-55. doi: 10.1073/pnas.1110905108. Epub 2011 Oct 17. Iron deficiency drives an autosomal dominant hypophosphatemic rickets (ADHR) phenotype in fibroblast growth factor-23 (Fgf23) knock-in mice. Farrow EG1, Yu X, Summers LJ, Davis SI, Fleet JC, Allen MR, Robling AG, Stayrook KR, Jideonwo V, Magers MJ, Garringer HJ, Vidal R, Chan RJ, Goodwin CB, Hui SL, Peacock M, White KE.
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We thank Dr. Fred Dick, University of Ottawa, for consultation during targeting vector analysis; Anthony Acton, Jr., Ronald McClintock, and Dr. Keith Condon for assistance with sample processing; Dr. Xin Zhang for microscope use; and Jeff Lavigne and Richard Zahradnik from Immutopics International, Inc. for generously providing Fgf23 antibody reagents and C-terminal Fgf23 ELISA kits. This work was supported by National Institutes of Health Grants DK063934 and an American Recovery and Reinvestment Act supplement under the same grant number (to K.E.W.), DK054111 (to J.C.F.), R21 HL092524 (to R.J.C.), HL104867 (C.B.G.), and NS050227 (to R.V.). Support also was provided by the Indiana Genomics Initiative of Indiana University, which is supported in part by the Lilly Endowment, Inc.; by a National Kidney Foundation postdoctoral fellowship (E.G.F.); by the Indiana University Medical Student Affairs Program in Academic Medicine. This project also was supported, in part, by the Indiana Clinical and Translational Sciences Institute, which is funded in part by Grant RR025761 from the National Institutes of Health, National Center for Research Resources, Clinical and Translational Sciences Award.
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