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Query: UMLS:C0235394 (
wasting
)
8,040
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Autosomal dominant hypophosphatemic rickets (ADHR) is a rare disease, characterized by isolated renal phosphate
wasting
, hypophosphatemia, and inappropriately normal 1,25-dihydroxyvitamin D(3) (calcitriol) levels. This syndrome involves rickets with bone deformities in childhood and osteomalacia, osteoporosis, articular and para-articular pain, and fatigue in adulthood. It is caused by mutations in a consensus sequence for proteolytic cleavage of the
FGF23
protein. Normally, this protein actively regulates phosphate homeostasis. Here we report a Tunisian family in which one parent and three children show clinical and biological features of ADHR. Mutation analysis of the
FGF23
gene finds a heterozygous substitution of the C at position 526 by a T (526 C --> T), leading to an amino acid replacement of the
FGF23
protein (R176W) at position 176. This causative new mutation is located in the consensus sequence for the proteolytic cleavage domain. These results confirm the importance of this site in
FGF23
function and its essential role in ADHR physiopathology.
...
PMID:An autosomal dominant hypophosphatemic rickets phenotype in a Tunisian family caused by a new FGF23 missense mutation. 1965 82
Hereditary forms of renal phosphate
wasting
have been studied thoroughly in the past years. X-linked Hypophosphatemic rickets (XLH), autosomal dominant hypophosphatemic rickets/osteomalacia (ADHR) and autosomal recessive hypophosphatemic rickets (ARHR) are known genetic disorders in which a disturbance of phosphatonins is a causative factor in the pathogenesis. We describe a comparable but yet undescribed disorder in a family in which a 53 year old man presented with a spontaneous fracture after suffering for years with severe fatigue and musculoskeletal pains. A low serum phosphate was discovered. The two subsequent generations of this family developed the same symptoms but at an earlier age. Almost all family members have been investigated and the majority appears to have low bone density and/or renal phosphate
wasting
and/or low serum phosphate. Remarkably no rickets was found. No elevation of
FGF23
or mutations in the gene encoding
FGF23
were found. We believe this is a new familial disorder of bone metabolism and phosphate homeostasis in which a disturbance of bone modulators may play a central role.
...
PMID:A familial disorder with low bone density and renal phosphate wasting. 1971 54
FGF2 transgenic mice were developed in which type I collagen regulatory sequences drive the nuclear high molecular weight FGF2 isoforms in osteoblasts (TgHMW). The phenotype of TgHMW mice included dwarfism, decreased bone mineral density (BMD), osteomalacia, and decreased serum phosphate (P(i)). When TgHMW mice were fed a high P(i) diet, BMD was increased, and dwarfism was partially reversed. The TgHMW phenotype was similar to mice overexpressing
FGF23
. Serum
FGF23
was increased in TgHMW mice. Fgf23 mRNA in bones and fibroblast growth factor receptors 1c and 3c and Klotho mRNAs in kidneys were increased in TgHMW mice, whereas the renal Na(+)/P(i) co-transporter Npt2a mRNA was decreased. Immunohistochemistry and Western blot analyses of TgHMW kidneys showed increased KLOTHO and decreased NPT2a protein. The results suggest that overexpression of HMW FGF2 increases
FGF23
/FGFR/KLOTHO signaling to down-regulate NPT2a, causing P(i)
wasting
, osteomalacia, and decreased BMD. We assessed whether HMW FGF2 expression was altered in the Hyp mouse, a mouse homolog of the human disease X-linked hypophosphatemic rickets/osteomalacia. Fgf2 mRNA was increased in bones, and Western blots showed increased FGF2 protein in nuclear fractions from osteoblasts of Hyp mice. In addition, immunohistochemistry demonstrated co-localization of
FGF23
and HMW FGF2 protein in osteoblasts and osteocytes from Hyp mice. This study reveals a novel mechanism of regulation of the
FGF23
-P(i) homeostatic axis.
...
PMID:Nuclear isoforms of fibroblast growth factor 2 are novel inducers of hypophosphatemia via modulation of FGF23 and KLOTHO. 1993 69
Fibroblast growth factor (FGF) 23 inhibits renal phosphate reabsorption by activating FGF receptor (FGFR) 1c in a Klotho-dependent fashion. The phosphaturic activity of
FGF23
is abrogated by proteolytic cleavage at the RXXR motif that lies at the boundary between the FGF core homology domain and the 72-residue-long C-terminal tail of
FGF23
. Here, we show that the soluble ectodomains of FGFR1c and Klotho are sufficient to form a ternary complex with
FGF23
in vitro. The C-terminal tail of
FGF23
mediates binding of
FGF23
to a de novo site generated at the composite FGFR1c-Klotho interface. Consistent with this finding, the isolated 72-residue-long C-terminal tail of
FGF23
impairs
FGF23
signaling by competing with full-length ligand for binding to the binary FGFR-Klotho complex. Injection of the
FGF23
C-terminal tail peptide into healthy rats inhibits renal phosphate excretion and induces hyperphosphatemia. In a mouse model of renal phosphate
wasting
attributable to high
FGF23
, the
FGF23
C-terminal peptide reduces phosphate excretion, leading to an increase in serum phosphate concentration. Our data indicate that proteolytic cleavage at the RXXR motif abrogates
FGF23
activity by a dual mechanism: by removing the binding site for the binary FGFR-Klotho complex that resides in the C-terminal region of
FGF23
, and by generating an endogenous inhibitor of
FGF23
. We propose that peptides derived from the C-terminal tail of
FGF23
or peptidomimetics and small-molecule organomimetics of the C-terminal tail can be used as therapeutics to treat renal phosphate
wasting
.
...
PMID:Isolated C-terminal tail of FGF23 alleviates hypophosphatemia by inhibiting FGF23-FGFR-Klotho complex formation. 1996 87
Tumor-induced osteomalacia (TIO) is a rare acquired paraneoplastic disease characterized by renal phosphate
wasting
and hypophosphatemia. Recently, it was reported that tumors associated with TIO produce fibroblast growth factor (FGF) 23, identified as the last member of the FGF family and of which excessive action causes several hypophosphatemic diseases whereas deficient
FGF23
activity results in hyperphosphatemic tumoral calcinosis. In this case, although it was difficult to locate the associated tumor, an abnormal mass in the left maxilla was detected by imaging. The tumor was removed by partial resection of the left maxillary alveolar region. Thereafter, serum level of
FGF23
rapidly decreased, hypophosphatemia improved, and the clinical symptoms greatly improved. Histopathologic diagnosis of the tumor was phosphaturic mesenchymal tumor, mixed connective tissue variant. Immunohistochemical findings confirmed that the removed tumor produced
FGF23
. These results indicate that development of osteomalacia in this patient was related to the maxillary tumor, which overexpressed
FGF23
.
...
PMID:Tumor-induced osteomalacia associated with a maxillofacial tumor producing fibroblast growth factor 23: report of a case and review of the literature. 2021 87
Tumor-induced osteomalacia (TIO) is an acquired disorder of isolated renal phosphate
wasting
associated with tumors, typically of mesenchymal origin. Patients with TIO share similar biochemical and skeletal phenotypes with patients who have autosomal dominant hypophosphatemic rickets (ADHR) and X-linked hypophosphatemia. The study of TIO introduced the idea of the existence of circulating factors, referred to as 'phosphatonins', produced by the tumor, which act upon the kidney to reduce phosphate reabsorption. Although several factors have been identified, the phosphatonin
FGF-23
, also identified as the causative factor in ADHR, is currently the best characterized of these factors relative to phosphate handling. This review describes the importance of TIO in understanding phosphate homeostasis in the context of new endocrine interactions between the skeleton and the kidney.
...
PMID:Tumor-induced osteomalacia. 2022 70
Inherited diseases of renal phosphate handling lead to urinary phosphate
wasting
and depletion of total body phosphorus stores. Clinical sequelae of inherited disorders that are associated with increased urinary phosphate excretion are deleterious and can lead to abnormal skeletal growth and deformities. This Review describes hereditary disorders of renal phosphate
wasting
taking into account developments in our understanding of renal phosphate handling from the last decade. The cloning of genes involved in these disorders and further studies on their pathophysiological mechanisms have given important insights in to how phosphatonins, such as
FGF-23
, regulate renal phosphate reabsorption in health and disease. X-linked dominant hypophosphatemic rickets results from mutation of a metalloprotease (PHEX) that has an unidentified role in
FGF-23
degradation. Mutation of an RXXR proteolytic cleavage site in
FGF-23
prevents degradation and increases circulating levels of
FGF-23
in autosomal dominant hypophosphatemic rickets.
FGF-23
acts to remove sodium phosphate co-transporters from the luminal membrane of proximal tubular cells with resultant renal phosphate
wasting
. Loss of function mutations in genes encoding the transporters NaPi-IIc and NaPi-IIa also result in renal phosphate
wasting
and rickets.
...
PMID:Hereditary disorders of renal phosphate wasting. 2092
Hypophosphatemia caused by inappropriate urinary phosphate
wasting
is a frequent metabolic complication of the early period following kidney transplantation. Although previously considered to be caused by tertiary hyperparathyroidism, recent evidence suggests a primary role for persistently elevated circulating levels of the phosphorus-regulating hormone,
FGF23
. In the setting of a healthy renal allograft, markedly increased
FGF23
levels from the dialysis period induce renal phosphate
wasting
and inhibition of calcitriol production, which contribute to hypophosphatemia. While such tertiary
FGF23
excess and resultant hypophosphatemia typically abates within the first few weeks to months post-transplant, some recipients manifest persistent renal phosphate
wasting
. Furthermore, increased
FGF23
levels have been associated with increased risk of kidney disease progression, cardiovascular disease, and death outside of the transplant setting. Whether tertiary
FGF23
excess is associated with adverse transplant outcomes is unknown. In this article, we review the physiology of
FGF23
, summarize its relationship with hypophosphatemia after kidney transplantation, and speculate on its potential impact on long-term outcomes of renal allograft recipients.
...
PMID:Tertiary excess of fibroblast growth factor 23 and hypophosphatemia following kidney transplantation. 2094 92
Fibroblast growth factor 23
(
FGF23
), a hormone primarily produced in bone cells, targets the kidney to accelerate phosphate excretion into the urine and suppresses vitamin D synthesis, thereby inducing a negative phosphate balance. Excessive serum
FGF23
due to hereditary disorders such as hypophosphatemic rickets leads to phosphate
wasting
and impaired bone mineralization. In contrast, deficiencies in
FGF23
are associated with hyperphosphatemia, elevated 1,25(OH)(2)D(3), ectopic ossification in soft tissues, and defects in skeletal mineralization. Recent studies of human genetic disorders and genetically engineered mice, as well as the in vitro approaches, have clarified some mysteries in
FGF23
regulation and its potential roles in bone modeling and remodeling, which are summarized in this review article.
...
PMID:FGF23 in skeletal modeling and remodeling. 2140 2
Oncogenic osteomalacia (OOM), or tumor-induced osteomalacia, is a rare disease characterized by renal phosphate
wasting
and osteomalacia. It arises due to the secretion of fibroblast growth factor 23 (FGF-23) from causative tumors. Matrix extracellular phosphoglycoprotein (MEPE) is predominantly expressed in odontoblasts, osteoblasts, and osteocytes. Although the presence of MEPE mRNA has been reported in some OOM tumors, little is known about the prevalence of MEPE expression in OOM tumors. In this study, the expression of MEPE and FGF-23 in OOM tumors was investigated at the transcriptional and translational levels. Eleven causative OOM tumors were analyzed by quantitative real-time reverse transcription-polymerase chain reaction and immunohistochemistry for MEPE and FGF-23 expression. Hemangiopericytomas and giant cell tumors, pathological diagnoses that are common in cases of OOM, were obtained from non-osteomalacic patients and analyzed as controls. The gene expression level of
FGF23
and MEPE in OOM tumors was 10(4)- and 10(5)-times higher, respectively, than in non-OOM tumors. Immunohistochemical staining revealed that FGF-23 protein was expressed in all OOM tumors, and MEPE was expressed in 10 out of 11 OOM tumors. Thus, MEPE expression was common in OOM tumors, similar to FGF-23. These results indicate that, in addition to the hypophosphatemic effects of FGF-23, MEPE or the MEPE-derived acidic serine aspartate-rich MEPE-associated motif peptide may contribute to decreased bone mineralization in OOM patients.
...
PMID:Matrix extracellular phosphoglycoprotein is expressed in causative tumors of oncogenic osteomalacia. 2173 89
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