[Clinical usefulness of the determination of fibroblast growth factor 23 in the evaluation of patients with osteomalacia]. / Utilidad clínica de la determinación del factor de crecimiento de los fibroblastos 23 en la valoración de pacientes con osteomalacia.

BACKGROUND AND OBJECTIVE: The aim of the present study was to analyze the usefulness of the determination of fibroblast growth factor 23 (FGF23), a regulatory hormone of phosphate metabolism, in the evaluation of patients with osteomalacia of different causes. PATIENTS AND METHOD: Seventeen patients with osteomalacia were included: 12 hypophosphatemic osteomalacia (by several causes), 4 vitamin D-deficiency osteomalacia and one with hypophosphatasia. Plasma C-terminal FGF23 was determined in all patients. RESULTS: FGF23 levels were increased in 6/12 (50%) of patients with hypophosphatemic osteomalacia (2 X-linked, one autosomal dominant, one related HIV therapy and 2 not elucidated). No patient with vitamin D-deficiency osteomalacia or hypophosphatasia presented increased FGF23 levels. CONCLUSION: The determination of FGF23 could be useful in the evaluation of the different types of hypophosphatemic osteomalacia and also in the identification of their associated etiopathogenic mechanisms. Thus, depending on the cause, 50% of the patients with hypophosphatemic osteomalacia showed increased FGF23 values, whereas in vitamin D-deficiency osteomalacia and in hypophosphatasia FGF23 levels were normal.

El eje hueso-riñón en el control del fósforo sérico y la mineralización ósea / Bone-Kidney axis in the control of serum phosphorus and bone mineralization

El eje hueso-riñón ha sido pensado como un mecanismo por el cual el esqueleto se comunica con el riñón para coordinar la mineralización de la matriz extracelular ósea con el manejo renal del fosfato. Osteoblastos /osteocitos están bien preparados para coordinar las homeostasis sistémica de fósforo y la mineralización ósea, ya que ellos expresan todos los componentes implicados en un posible eje hueso-riñón, incluyendo al PHEX, FGF-23, MEPE, y DMP1. Los efectos autocrinos de proteínas de la familia SIBLING como MEPE y DMP1 sobre los osteoblastos podrían regular la producción de proteínas de matriz extracelular que intervienen en la mineralización. El riñón provee uno de los efectores de este eje que regula el balance de fosfato a través de la expresión apical de los cotransportadores sodio/fosfato NaPi-IIa y NaPi-IIc en el túbulo proximal. Central en este eje es el FGF-23, producido por los osteoblastos que tiene acciones fosfatúricas sobre el riñón. Cuando se descubrió que el FGF23, la primera fosfatonina era de origen osteoblástico/osteocitico, quedó establecido el eje hueso-riñón. Probar definitivamente la existencia de este eje hueso-riñón y definir exactamente su rol fisiológico requerirá de investigaciones adicionales

The bone-kidney axis has been thought as a mechanism for the skeleton to communicate with the kidney to coordinate the mineralization of extracelular matrix with the renal handling of phosphate. Osteoblasts / osteocytes are well suited for coordinating systemic phosphate homeostasis and mineralization, since they express all of the implicated components of a possible bone-kidney axis, including PHEX, FGF-23, MEPE, and DMP1. In addition, autocrine effects of SIBLING proteins as MEPE and DMP1 on osteoblasts could regulate the production of ECM proteins that regulate mineralization. The kidney provides one of the effectors of the axis that regulates phosphate balance through the apical expression of NaPi-IIa and NaPi-IIc in proximal tubules. Central in this axis is FGF-23, produced by osteoblasts that has phosphaturic actions on the kidney. When FGF23, the first phosphatonin, was discovered to be of osteoblastic/osteocyte origin, the bone kidney axis was established. Proving the existence of this bone-kidney axis and defining its physiological role will require additional investigations