Hypophosphatemic Rickets: Revealing Novel Control Points for Phosphate Homeostasis

被引:0
作者
Kenneth E. White
Julia M. Hum
Michael J. Econs
机构
[1] Indiana University School of Medicine,Department of Medical and Molecular Genetics, Department of Medicine
[2] Indiana University School of Medicine,Division of Endocrinology and Metabolism, Department of Medicine
来源
Current Osteoporosis Reports | 2014年 / 12卷
关键词
Phosphate; Hypophosphatemia; Hyperphosphatemia; Osteomalacia; FGF23; αKlotho; Mineralization; Rickets; Furin; Fam20c; DMP1; ENPP1; GALNT3;
D O I
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学科分类号
摘要
Rapid and somewhat surprising advances have recently been made toward understanding the molecular mechanisms causing heritable disorders of hypophosphatemia. The results of clinical, genetic, and translational studies have interwoven novel concepts underlying the endocrine control of phosphate metabolism, with far-reaching implications for treatment of both rare Mendelian diseases as well as common disorders of blood phosphate excess such as chronic kidney disease (CKD). In particular, diseases caused by changes in the expression and proteolytic control of the phosphaturic hormone fibroblast growth factor-23 (FGF23) have come to the forefront in terms of directing new models explaining mineral metabolism. These hypophosphatemic disorders as well as others resulting from independent defects in phosphate transport or metabolism will be reviewed herein, and implications for emerging therapeutic strategies based upon these new findings will be discussed.
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页码:252 / 262
页数:10
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  • [31] Ben-Dov H(2013)Effect of ferric carboxymaltose on serum phosphate and C-terminal FGF23 levels in non-dialysis chronic kidney disease patients: post-hoc analysis of a prospective study BMC Nephrol 14 167-466
  • [32] Galitzer V(2009)FGF23 elevation and hypophosphatemia after intravenous iron polymaltose: a prospective study J Clin Endocrinol Metab 94 2332-3549
  • [33] Lavi-Moshayoff R(2007)The association of circulating ferritin with serum concentrations of fibroblast growth factor-23 measured by three commercial assays Ann Clin Biochem 44 463-E1155
  • [34] Goetz M(2011)Iron modifies plasma FGF23 differently in autosomal dominant hypophosphatemic rickets and healthy humans J Clin Endocrinol Metab 96 3541-1932
  • [35] Kuro-o M(2011)Iron deficiency drives an autosomal dominant hypophosphatemic rickets (ADHR) phenotype in fibroblast growth factor-23 (Fgf23) knock-in mice Proc Natl Acad Sci U S A 108 E1146-1803
  • [36] Mohammadi H(2007)Regulation of iron homeostasis by the hypoxia-inducible transcription factors (HIFs) J Clin Invest 117 1926-692
  • [37] Olauson K(2013)Effects of iron deficiency anemia and its treatment on fibroblast growth factor 23 and phosphate homeostasis in women J Bone Miner Res 28 1793-1141
  • [38] Lindberg R(2003)FGF-23 in fibrous dysplasia of bone and its relationship to renal phosphate wasting J Clin Invest 112 683-369
  • [39] Amin T(2012)Mechanism of FGF23 processing in fibrous dysplasia J Bone Miner Res 27 1132-136
  • [40] Sato T(2014)Neonatal iron deficiency causes abnormal phosphate metabolism by elevating FGF23 in normal and ADHR mice J Bone Miner Res 29 361-1209
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