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: UMLS:C0235394 (wasting)
8,040 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous investigators described a kindred with an X-linked dominant form of phosphate wasting in which affected children did not have radiographic evidence of rickets, whereas older individuals were progressively disabled by severe bowing. They proposed that this kindred suffered from a distinct disorder that they referred to as adult-onset vitamin D-resistant hypophosphatemic osteomalacia (AVDRR). We recently identified a gene, PHEX, that is responsible for the disorder X-linked hypophosphatemic rickets. To determine whether AVDRR is a distinct form of phosphate wasting, we searched for PHEX mutations in affected members of the original AVDRR kindred. We found that affected individuals have a missense mutation in PHEX exon 16 that results in an amino acid change from leucine to proline in residue 555. Clinical evaluation of individuals from this family indicates that some of these individuals display classic features of X-linked hypophosphatemic rickets, and we were unable to verify progressive bowing in adults. In light of the variability in the clinical spectrum of X-linked hypophosphatemic rickets and the presence of a PHEX mutation in affected members of this kindred, we conclude that there is only one form of X-linked dominant phosphate wasting.
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PMID:A PHEX gene mutation is responsible for adult-onset vitamin D-resistant hypophosphatemic osteomalacia: evidence that the disorder is not a distinct entity from X-linked hypophosphatemic rickets. 976 46

X-linked hypophosphatemia (XLH), a renal phosphate (Pi) wasting disorder with defective bone mineralization, is caused by mutations in the PHEX gene (a Pi-regulating gene with homology to endopeptidases on the X chromosome). Parathyroid hormone (PTH) status in XLH has been controversial, with the prevailing belief that hyperparathyroidism develops in response to Pi therapy. We report a 5-year-old girl with XLH (patient 1) who had significant hyperparathyroidism at presentation, prior to initiation of therapy. We examined her response to a single oral Pi dose, in combination with calcitriol, and demonstrated a rise in serum concentration of intact PTH, which peaked at 4 h and paralleled the rise in serum Pi concentration. We also present two other patients whose parathyroid glands were analyzed for PHEX mRNA expression following parathyroidectomy. Patient 2 had autonomous hyperparathyroidism associated with chronic renal insufficiency, and patient 3, with XLH, developed autonomous hyperparathyroidism after 8 years of therapy with Pi and calcitriol. Following parathyroidectomy, patient 3 exhibited an increase in both serum Pi concentration and renal Pi reabsorption. The abundance of PHEX mRNA, relative to beta-actin mRNA, in parathyroid glands from patients 2 and 3 was several-fold greater than that in human fetal calvaria, as estimated by ribonuclease protection assay. In summary, we have shown that hyperparathyroidism can be a primary manifestation of XLH and that PHEX is abundantly expressed in the parathyroid gland. Given that PHEX has homology to endopeptidases, we propose that PHEX may have a role in the normal regulation of PTH.
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PMID:PHEX expression in parathyroid gland and parathyroid hormone dysregulation in X-linked hypophosphatemia. 1046 May 13

A man was identified with two X-chromosomal neuromuscular disorders, X-linked Charcot-Marie-Tooth disease (CMTX) and Becker muscular dystrophy (BMD). The neuropathy could be tracked in the family and was found to be caused by a mutation in the connexin32 gene on Xq13. 1. The muscular dystrophy was sporadic owing to a de novo deletion in the dystrophin gene located in band Xp21.2. Although these genetic alterations of the same X-chromosome are considered as physically independent, their combination resulted in a unique phenotype with severe wasting of proximal as well as distal muscles and rapid progression of both conditions.
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PMID:Becker muscular dystrophy combined with X-linked Charcot-Marie-Tooth neuropathy. 1079 9

Mutations of the DAX-1 gene, which encodes a newly discovered member of the nuclear hormone receptor family, were reported to cause X-linked congenital adrenal hypoplasia and hypogonadotrophic hypogonadism. While genetic data on DAX-1 are accumulating, information on the clinical course of the disorder are scarce. Here we present a detailed documentation of longitudinal data relating to three cases. We retrospectively collected clinical data on three boys (6, 14 and 14.5 years old) who we examined over a period ranging between 5 and 14 years. Mutational analysis of the DAX-1 gene was performed by means of direct sequencing of PCR products. The patients presented at ages between 4 and 6 weeks with salt-wasting, but there was no evidence of hypoglycaemia. All three cases were initially erroneously diagnosed with isolated aldosterone deficiency. Glucocorticoid deficiency was established by means of ACTH stimulation tests at 4 months, 3 and 13 years of age. One boy, whose therapy was discontinued at the age of 4 months, developed normally until adrenal crisis occurred at the age of 13 years. In all three cases, congenital hypogonadism was ruled out during infancy, as penis size was normal, the testes were descended, and serum samples contained normal testosterone levels. One boy exhibited transient hypergonadotrophism at age 9 but showed no clinical signs of puberty or an increase in serum testosterone. Onset of puberty and LHRH tests proved to be normal in his case as well as in another patient studied. In two patients, genetic analysis revealed new mutations at the C-terminus of DAX-1, these being a 1-base deletion (656delG) inherited from the mother and a de-novo 2-base insertion (728insCA) of the DAX-1 gene, respectively, both causing frame shift and premature stops at codons 263 and 398. One boy was affected by a new nonsense mutation of codon 39 (W39X) inherited from his mother. Mineralocorticoid deficiency preceded glucocorticoid deficiency which could be diagnosed through ACTH stimulation after the neonatal period. Transitory functional recovery of the adrenal glands can occur in adrenal hypoplasia congenita (AHC). Transient hypergonadotrophism may be one of the first indicators of defects in the gonadal axis, although normal initiation of puberty is not rare. The definitive diagnosis was established by means of molecular analysis of the DAX-1 gene. There was no correlation between types of mutations and phenotypes. The diagnostic procedure in male children and adolescents presenting with adrenal crisis should include ACTH stimulation tests and mutational analysis of DAX-1 in the absence of another proven aetiology.
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PMID:X-linked congenital adrenal hypoplasia: new mutations and long-term follow-up in three patients. 1093 Nov 8

X-linked hypophosphatemic rickets (XLH) is an X-linked dominant disorder characterized by renal phosphate wasting, abnormal vitamin D metabolism, and defects of bone mineralization. The phosphate-regulating gene on the X-chromosome (PHEX) that is defective in XLH has been cloned, and its location identified at Xp22.1. It has been recognized to be homologous to certain endopeptidases. So far, a variety of PHEX mutations have been identified mainly in European and North American patients with XLH. To analyze the molecular basis of four unrelated Japanese families with XLH, we determined the nucleotide sequence of the PHEX gene of affected members. We detected a new nonsense mutation (R198X) in exon 5, a new 3 nucleotides insertion mutation in exon 12 and a new missense mutation (L160R) in exon 5 as well as a previously reported nonsense mutation in exon 8 (R291X). These results suggest that: 1) PHEX gene mutations are responsible for XLH in Japanese patients, and 2) PHEX gene mutations are heterogeneous in the Japanese population similarly to other ethnic populations.
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PMID:Three novel PHEX gene mutations in Japanese patients with X-linked hypophosphatemic rickets. 1100 47

Charcot-Marie-Tooth disease (CMT) is characterized by distal muscle weakness and wasting, often resulting in foot deformities and gait disturbances, distal sensory impairment and by more or less typical changes in sural nerve biopsy. CMT type 1 is also characterized by reduced nerve conduction velocities. For these demyelinating subtypes, most frequently a 1.5 Mb tandem duplication in chromosome 17p11.2-12 comprising the gene for the peripheral myelin protein 22 (PMP22) is observed (CMT1A), but point mutations in PMP22 have also rarely been reported. X-linked, dominant CMTX1 disease is the second most common type of these hereditary motor and sensory neuropathies (HMSN). Mutations in the X chromosomal gene Connexin32 (Cx32) synonymous gap junction beta-1 (GJB1) are detectable in most X-linked CMT families. We report a novel missense mutation--Tyr65His--in the first extracelullar domain of the Cx32 gene in a Czech CMTX1 family. The mutation was not detectable in 50 healthy controls. The clinical phenotype in both the male proband and his mother was moderate with pronounced peroneal weakness and foot drop. Nerve conduction velocities were intermediately decreased (31-38 m/s) in both patients and slowing of central acoustic conduction (BAEP) was found in both the son and the mother whereas visual central conduction slowing (VEP) was detectable only in the son.
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PMID:Charcot-Marie-Tooth type X: A novel mutation in the Cx32 gene with central conduction slowing. 1156 88

Emery-Dreifuss muscular dystrophy is characterized by the clinical triad of early onset contractures of elbows, Achilles tendons and spine, wasting and weakness with a predominantly humero-peroneal distribution and life-threatening cardiac conduction defects and/or cardiomyopathy. Two main types of inheritance have been described: the X-linked form is caused by mutations in the STA gene on locus Xq28 and the gene for the autosomal dominant form (LMNA gene) has been localized on chromosome 1q11-q23. Recently, mutations in this LMNA gene have been also found to be responsible for the less frequent autosomal recessive form of the disease. Although all forms share a similar clinical presentation, some differences appear to exist between them as has been described recently in a large number of patients. We present the first documented Spanish family genetically confirmed to have autosomal dominant Emery-Dreifuss muscular dystrophy. Clinical, pathological and genetic data are described. We emphasize the difficulties in diagnosis, especially in sporadic cases or young patients in whom the clinical picture is not completely established.
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PMID:Autosomal dominant Emery-Dreifuss muscular dystrophy: a new family with late diagnosis. 1173 Dec 80

The X-linked muscle-wasting disease Duchenne muscular dystrophy is caused by mutations in the gene encoding dystrophin. There is currently no effective treatment for the disease; however, the complex molecular pathology of this disorder is now being unravelled. Dystrophin is located at the muscle sarcolemma in a membrane-spanning protein complex that connects the cytoskeleton to the basal lamina. Mutations in many components of the dystrophin protein complex cause other forms of autosomally inherited muscular dystrophy, indicating the importance of this complex in normal muscle function. Although the precise function of dystrophin is unknown, the lack of protein causes membrane destabilization and the activation of multiple pathophysiological processes, many of which converge on alterations in intracellular calcium handling. Dystrophin is also the prototype of a family of dystrophin-related proteins, many of which are found in muscle. This family includes utrophin and alpha-dystrobrevin, which are involved in the maintenance of the neuromuscular junction architecture and in muscle homeostasis. New insights into the pathophysiology of dystrophic muscle, the identification of compensating proteins, and the discovery of new binding partners are paving the way for novel therapeutic strategies to treat this fatal muscle disease. This review discusses the role of the dystrophin complex and protein family in muscle and describes the physiological processes that are affected in Duchenne muscular dystrophy.
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PMID:Function and genetics of dystrophin and dystrophin-related proteins in muscle. 1191 91

Over the past decade, three classes of Na/Pi cotransporters have been identified in mammalian kidney. The type IIa Na/Pi cotransporter, Npt2, is the most abundant and is expressed in the brush-border membrane of renal proximal tubular cells where the bulk of filtered inorganic phosphate (Pi) is reabsorbed. Disruption of the Npt2 gene in mice underscored the importance of Npt2 in the overall maintenance of Pi homeostasis and demonstrated that Npt2 is the target for regulation of proximal tubular Pi reabsorption by parathyroid hormone and dietary Pi. The regulation is post-transcriptional and largely occurs by brush-border membrane retrieval and insertion of Npt2 protein. Of great interest is the recent identification of novel Pi regulating genes, PHEX and FGF23, that play a role in the pathophysiology of inherited (X-linked hypophosphatemia and autosomal dominant hypophosphatemic rickets) and acquired (oncogenic hypophosphatemic rickets) disorders characterized by renal Pi wasting and associated skeletal abnormalities. Studies are currently underway to elucidate the molecular basis for impaired renal Pi reabsorption in these disorders and to determine the precise physiological role of PHEX and FGF-23 in the regulation of Pi homeostasis.
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PMID:Novel phosphate-regulating genes in the pathogenesis of renal phosphate wasting disorders. 1211 Dec 39

Duchenne muscular dystrophy (DMD) is a severe progressive muscle-wasting disorder caused by mutations in the dystrophin gene. Studies have shown that bone marrow cells transplanted into lethally irradiated mdx mice, the mouse model of DMD, can become part of skeletal muscle myofibers. Whether human marrow cells also have this ability is unknown. Here we report the analysis of muscle biopsies from a DMD patient (DMD-BMT1) who received bone marrow transplantation at age 1 year for X-linked severe combined immune deficiency and who was diagnosed with DMD at age 12 years. Analysis of muscle biopsies from DMD-BMT1 revealed the presence of donor nuclei within a small number of muscle myofibers (0.5-0.9%). The majority of the myofibers produce a truncated, in-frame isoform of dystrophin lacking exons 44 and 45 (not wild-type). The presence of bone marrow-derived donor nuclei in the muscle of this patient documents the ability of exogenous human bone marrow cells to fuse into skeletal muscle and persist up to 13 years after transplantation.
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PMID:Long-term persistence of donor nuclei in a Duchenne muscular dystrophy patient receiving bone marrow transplantation. 1223 12


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