Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

X-linked hypophosphatemic rickets (HYP) is a dominant disorder characterised by impaired phosphate uptake in the kidney, which is likely to be caused by abnormal regulation of sodium phosphate cotransport in the proximal tubules. By positional cloning, we have isolated a candidate gene from the HYP region in Xp22.1. This gene exhibits homology to a family of endopeptidase genes, members of which are involved in the degradation or activation of a variety of peptide hormones. This gene (which we have called PEX) is composed of multiple exons which span at least five cosmids. Intragenic non-overlapping deletions from four different families and three mutations (two splice sites and one frameshift) have been detected in HYP patients, which suggest that the PEX gene is involved in the HYP disorder.
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PMID:A gene (PEX) with homologies to endopeptidases is mutated in patients with X-linked hypophosphatemic rickets. The HYP Consortium. 755 Mar 39

Mutations in the PEX gene at Xp22.1 (phosphate-regulating gene with homologies to endopeptidases, on the X-chromosome), are responsible for X-linked hypophosphataemic rickets (HYP). Homology of PEX to the M13 family of Zn2+ metallopeptidases which include neprilysin (NEP) as prototype, has raised important questions regarding PEX function at the molecular level. The aim of this study was to analyse 99 HYP families for PEX gene mutations, and to correlate predicted changes in the protein structure with Zn2+ metallopeptidase gene function. Primers flanking 22 characterised exons were used to amplify DNA by PCR, and SSCP was then used to screen for mutations. Deletions, insertions, nonsense mutations, stop codons and splice mutations occurred in 83% of families screened for in all 22 exons, and 51% of a separate set of families screened in 17 PEX gene exons. Missense mutations in four regions of the gene were informative regarding function, with one mutation in the Zn2+-binding site predicted to alter substrate enzyme interaction and catalysis. Computer analysis of the remaining mutations predicted changes in secondary structure, N-glycosylation, protein phosphorylation and catalytic site molecular structure. The wide range of mutations that align with regions required for protease activity in NEP suggests that PEX also functions as a protease, and may act by processing factor(s) involved in bone mineral metabolism.
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PMID:Distribution of mutations in the PEX gene in families with X-linked hypophosphataemic rickets (HYP). 909 56

X-linked hypophosphatemic rickets (HYP) is a dominant disorder characterized by renal phosphate wasting and abnormal vitamin D metabolism. PEX, the gene that is defective in HYP and is located on Xp22.1, is homologous to members of the neutral endopeptidase family. However, the complete coding sequence of the PEX cDNA, the structure of the PEX gene, and the role that PEX plays in phosphate transport remain unknown. We determined the genomic structure of the published PEX gene, which was found to be composed of 18 short exons, and demonstrated that the genomic organization of PEX shares homology to members of the family of neutral endopeptidases. Primer sets were designed from the intron sequence, to amplify each PEX exon from genomic DNA of HYP patients. Mutations in PEX were identified in 9/22 unrelated HYP patients, confirming that defects in PEX are responsible for HYP. The mutations detected included three nonsense mutations, a 1-bp deletion leading to a frameshift, a donor splice-site mutation, and missense mutations in four patients. Although the entire PEX gene has not been identified and some mutations may have been missed, the lack of detection of mutations in the remaining 13 patients, especially in 1 patient who has an apparently balanced, de novo 9;13 translocation, implies that there may be other loci involved in the generation of the HYP phenotype.
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PMID:Mutational analysis of the PEX gene in patients with X-linked hypophosphatemic rickets. 910 24

Mammalian cell-surface peptidases participate in the postsecretory processing and metabolism of neuropeptides and peptide hormones. Neutral endopeptidase-24.11 (NEP) is the prototype of a family of zinc metallopeptidases that also includes the endothelin-converting enzymes (ECE) and which are structurally related to the bacterial enzymes thermolysin and lactococcal endopeptidase. Two other mammalian gene products exhibit strong homology with NEP: the erythrocyte cell-surface antigen, KELL; and the putative product of the PEX gene, which has been associated with X-linked hypophosphatemic rickets. No enzymic activity has yet been attributed to KELL and PEX proteins, and they remain peptidases in search of a substrate. A wide range of biologically active peptide substrates has been described for NEP, of which the enkephalins and the atrial natriuretic peptide family have assumed greatest significance. Endothelin-converting enzyme catalyses the final step in the biosynthesis of the vasoconstrictor peptide, endothelin (ET). Like NEP, it is a type II integral membrane protein, but is expressed predominantly in endothelial cells. Isoforms of ECE (ECE-1alpha, ECE-1beta, and ECE-2) exist that differ in a number of characteristics. In particular, ECE-1, through the paracrine effects of ET-1, may contribute to the proliferation of smooth muscle after angioplasty and to the development of human atherosclerosis. Inhibitors of ECE and NEP may have important therapeutic applications in cardiovascular and renal medicine.
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PMID:Mammalian membrane metallopeptidases: NEP, ECE, KELL, and PEX. 914 2

Mutations in the PEX gene are responsible for X-linked hypophosphatemic rickets. To gain insight into the role of PEX in normal physiology we have cloned the human full-length cDNA and studied its tissue expression, subcellular localization, and peptidase activity. We show that the cDNA encodes a 749-amino acid protein structurally related to a family of neutral endopeptidases that include neprilysin as prototype. By Northern blot analysis, the size of the full-length PEX transcript is 6.5 kilobases. PEX expression, as determined by semi-quantitative polymerase chain reaction, is high in bone and in tumor tissue associated with the paraneoplastic syndrome of renal phosphate wasting. PEX is glycosylated in the presence of canine microsomal membranes and partitions exclusively in the detergent phase from Triton X-114 extractions of transiently transfected COS cells. Immunofluorescence studies in A293 cells expressing PEX tagged with a c-myc epitope show a predominant cell-surface location for the protein with its COOH-terminal domain in the extracellular compartment, substantiating the assumption that PEX, like other members of the neutral endopeptidase family, is a type II integral membrane glycoprotein. Cell membranes from cultured COS cells transiently expressing PEX efficiently degrade exogenously added parathyroid hormone-derived peptides, demonstrating for the first time that recombinant PEX can function as an endopeptidase. PEX peptidase activity may provide a convenient target for pharmacological intervention in states of altered phosphate homeostasis and in metabolic bone diseases.
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PMID:Cloning of human PEX cDNA. Expression, subcellular localization, and endopeptidase activity. 959 14

X-linked hypophosphatemic rickets and autosomal dominant hypophosphatemic rickets are inherited phosphate wasting disorders. X-linked hypophosphatemic rickets results from mutations in the PHEX gene, which codes for a protein that is a member of the neutral endopeptidase family. The gene that is responsible for autosomal dominant hypophosphatemic rickets has not yet been identified, however, positional cloning studies have narrowed the gene locus to chromosome 12p13. This review will focus on the pathogenesis of these disorders and how these disorders provide insight into normal phosphate homeostasis.
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PMID:New insights into the pathogenesis of inherited phosphate wasting disorders. 1042 38

Familial hypophosphataemic rickets (XLH) is an X-linked dominant disorder resulting in hypophosphataemia, abnormal regulation of 25-hydroxy vitamin D metabolism, elevated activity of alkaline phosphatase, bone deformities and short stature. In 1995-97 the sequence of PEX gene responsible for the disease was established. The PEX gene spreads 24.3 kb and includes 22 small exons coding a protein belonging to a neutral endopeptidase family. Function of the protein is not known yet. Mutation analysis in patients from North America, Africa and Europe (including Poland) revealed the presence of many different types of the PEX gene mutations. Identified deletions, insertions and substitution are supposed to change the structure of the PEX protein. Active form of vitamin D3, 1-alpha-hydroxylase and phosphate supplementation are now the recommended treatment of XLH patients. Further research is necessary to understand the role of the PEX protein in the pathogenesis of hypophosphatamic rickets.
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PMID:[Molecular aspects of familial hypophosphatemic rickets]. 1091 Jun 42

Tumor-induced osteomalacia (TIO) is a rare and unique syndrome characterized by hypophosphatemia, excessive urinary phosphate excretion, reduced 1,25-dihydroxyvitamin D concentrations, and osteomalacia. Removal of the tumor is associated with a cure of the lesion. Several laboratories have now shown that conditioned medium derived from cultures of such tumors contain a small, heat-sensitive substance ("phosphatonin") of <25,000 daltons that specifically inhibits sodium-dependent phosphate transport in cultured renal proximal tubular epithelia. This substance does not increase cyclic adenosine monophosphate (cAMP) formation in tubular epithelial cells and does not increase cAMP excretion in urine. A substance with similar properties is present in the circulation of patients on hemodialysis. A syndrome with a remarkably similar biochemical phenotype, namely, X-linked hypophosphatemic rickets (XLH), also has a circulating factor with properties similar, if not identical, to those of the tumor-derived factor, "phosphatonin." The molecular defect in XLH has been shown to be due to a mutant endopeptidase, PHEX, whose substrate might be "phosphatonin." Hypophosphatemia and other biochemical abnormalities in TIO are due to excessive production of "phosphatonin" with normal PHEX function, whereas the biochemical abnormalities in XLH are caused by a mutant PHEX enzyme that fails to process "phosphatonin."
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PMID:Tumor-induced osteomalacia and the regulation of phosphate homeostasis. 1096 41

Proper serum phosphate concentrations are maintained by a complex and poorly understood process. Identification of genes responsible for inherited disorders involving disturbances in phosphate homeostasis may provide insight into the pathways that regulate phosphate balance. Several hereditary disorders of isolated phosphate wasting have been described, including X-linked hypophosphataemic rickets (XLH), hypophosphataemic bone disease (HBD), hereditary hypophosphataemic rickets with hypercalciuria (HHRH) and autosomal dominant hypophosphataemic rickets (ADHR). Inactivating mutations of the gene PHEX, encoding a member of the neutral endopeptidase family of proteins, are responsible for XLH (refs 6,7). ADHR (MIM 193100) is characterized by low serum phosphorus concentrations, rickets, osteomalacia, lower extremity deformities, short stature, bone pain and dental abscesses. Here we describe a positional cloning approach used to identify the ADHR gene which included the annotation of 37 genes within 4 Mb of genomic sequence. We identified missense mutations in a gene encoding a new member of the fibroblast growth factor (FGF) family, FGF23. These mutations in patients with ADHR represent the first mutations found in a human FGF gene.
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PMID:Autosomal dominant hypophosphataemic rickets is associated with mutations in FGF23. 1106 77

The phosphate-regulating gene with homologies to endopeptidases on the X chromosome (PHEX) is a member of the neutral endopeptidase family, which is expressed predominantly on the plasma membranes of mature osteoblasts and osteocytes. Although it is known that the loss of PHEX function results in X-linked hypophosphatemic rickets, characterized by abnormal bone matrix mineralization and renal phosphate wasting, little is known about how PHEX is regulated. We therefore sought to determine whether the murine PHEX gene is regulated by glucocorticoids (GCs), which are known to influence phosphate homeostasis and bone metabolism. Northern blot analysis revealed increased PHEX mRNA expression in GC-treated suckling mice (1.5-fold) and in rat osteogenic sarcoma (UMR-106) cells (2.5-fold). An increase was also seen in PHEX promoter activity in transiently transfected UMR-106 cells with GC treatment. Analysis of nested promoter deletions revealed that an atypical GC response element was located between -337 and -315 bp. Mutational analysis and electrophoretic mobility shift assays further identified -326 to -321 bp as a site involved in GC regulation. Supershift analyses and electrophoretic mobility shift assay competition studies indicated that the core binding factor alpha1-subunit transcription factor is able to bind to this region and may therefore play a role in the GC response of the murine PHEX gene.
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PMID:Glucocorticoid regulation of the murine PHEX gene. 1211 May 21


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