FGF-23 in fibrous dysplasia of bone and its relationship to renal phosphate wasting
Mara Riminucci, … , Paolo Bianco, Pamela Gehron Robey
Mara Riminucci, … , Paolo Bianco, Pamela Gehron Robey
Published September 1, 2003
Citation Information: J Clin Invest. 2003;112(5):683-692. https://doi.org/10.1172/JCI18399.
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FGF-23 in fibrous dysplasia of bone and its relationship to renal phosphate wasting

Abstract

FGF-23, a novel member of the FGF family, is the product of the gene mutated in autosomal dominant hypophosphatemic rickets (ADHR). FGF-23 has been proposed as a circulating factor causing renal phosphate wasting not only in ADHR (as a result of inadequate degradation), but also in tumor-induced osteomalacia (as a result of excess synthesis by tumor cells). Renal phosphate wasting occurs in approximately 50% of patients with McCune-Albright syndrome (MAS) and fibrous dysplasia of bone (FD), which result from postzygotic mutations of the GNAS1 gene. We found that FGF-23 is produced by normal and FD osteoprogenitors and bone-forming cells in vivo and in vitro. In situ hybridization analysis of FGF-23 mRNA expression identified “fibrous” cells, osteogenic cells, and cells associated with microvascular walls as specific cellular sources of FGF-23 in FD. Serum levels of FGF-23 were increased in FD/MAS patients compared with normal age-matched controls and significantly higher in FD/MAS patients with renal phosphate wasting compared with those without, and correlated with disease burden bone turnover markers commonly used to assess disease activity. Production of FGF-23 by FD tissue may play an important role in the renal phosphate–wasting syndrome associated with FD/MAS.

Authors

Mara Riminucci, Michael T. Collins, Neal S. Fedarko, Natasha Cherman, Alessandro Corsi, Kenneth E. White, Steven Waguespack, Anurag Gupta, Tamara Hannon, Michael J. Econs, Paolo Bianco, Pamela Gehron Robey

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Figure 1

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In situ hybridization analysis of FGF-23 expression in FD of bone. Biops...
In situ hybridization analysis of FGF-23 expression in FD of bone. Biopsy specimens of FD-involved iliac crest. Serial sections from two FD phosphaturic patients were hybridized with antisense and sense RNA probes for FGF-23 mRNA. (af) Patient 1. (a and b) Expression of FGF-23 is clearly observed both in the fibrous component of the lesion and in bone cells associated with abnormal bone trabeculae (a). No signal is observed in sections hybridized with the sense (control) probe (b). (c and d) Strong expression of FGF-23 mRNA is observed in the abnormal bone cells associated with the surface of abnormal bone trabeculae (double arrows) and with individual osteocytes therein (arrowheads) (d). (e and f) Expression of FGF-23 mRNA is also observed in cells (endothelial cells and/or pericytes) within the walls of microvessels in the FD tissue (single arrows). (gi) Patient 2. Strong hybridization signal in abnormal bone cells (g, i, j; thick arrows in j) and in spindle-shaped fibroblastic cells in the fibrous tissue (thin arrows in j). No signal is detected in sections hybridized with the sense probe (h). ft, fibrous tissue; b, bone; bv, blood vessel lumen.