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:C0022716 (Menkes)
1,057 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Menkes' disease is a rare X-linked multisystemic lethal disorder of copper transport metabolism. Failure of synthesis of several copper enzymes explains most of the clinical features, which were characterised by neurodegenerative symptoms and connective tissue manifestations. Most cases are still prone to rapidly progressive cerebral degeneration and early death in the first few years. Since CNS-dysfunction usually preceeds development of the pathognomonic "steely" hair, delay of clinical diagnosis and onset of therapeutic intervention precludes longlasting neurological benefit. This is particularly true for patients with large deletions or severe truncations of the responsible ATP7A gene. We report on our own experience with a patient, who was diagnosed to be affected by Menkes' syndrome at the age of one year, due to the specific hair texture and biochemical abnormalities. Molecular investigation revealed a total deletion of exon 15 of the ATP7A gene. Heterozygosity was confirmed by means of real-time PCR in the child's mother, but could be excluded in the grandmother and other female relatives at risk. Therapeutic support with subcutaneous injection of copper-histidinate normalised diminished copper and coeruloplasmin serum levels, but was unable to influence the clinical course and to prevent the fatal outcome at the age of two years. This observation is in line with the experience of the literature claiming that currently available medication will hardly be able to normalise brain copper levels. However, observations of clinical variants of Menkes' disease with quite a different outcome and, more importantly, emerging of alternative copper transport pathways might still justify this time-limited therapeutic intervention.
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PMID:[Menkes' disease: heterozygosity testing by quantitative real-time PCR and the dilemma of therapeutic support]. 1616 77

Mottled Tohoku (Atp7a(Mo-Tohm) or Mo(Tohm)) is an X-linked mutation with mottled pigmentation in heterozygous (Mo(Tohm)/+) females and is embryonic lethal at E11 in hemizygous (Mo(Tohm)/Y) males. Copper levels were low in the brain and high in the intestine of Mo(Tohm) mice. Two congenic strains with ICR or C57BL/6 (B6) background were produced for genetic and phenotypic analyses and revealed that Mo(Tohm)/+ females with ICR background survived until adulthood, while most with B6 background died within 2 days after birth. The Mo(Tohm)/Y males with both backgrounds died at around E11. Massive hemorrhage was shown in the yolk sac cavity with irregular attachment between the mesoderm and the endothelial cells of blood vessels in the embryos at E10.5, suggesting that this irregular attachment causes embryonic lethality. The Mo(Tohm) mutant had a 1440-bp deletion between intron 22 and exon 23 of the Atp7a gene. Mo(Tohm)/Y males with the wild-type Atp7a cDNA transgene were rescued from embryonic lethality, confirming that the Mo(Tohm) mutant is caused by the defect in the Atp7a gene. This mutant mouse is the most severe model of human Menkes disease in mottled mice established to date and one of the useful models for understanding the gene function of Menkes disease.
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PMID:Phenotypic and genetic characterization of the Atp7a(Mo-Tohm) mottled mouse: a new murine model of Menkes disease. 1633 16

Copper-transporting ATPase 1 and 2 (ATP7A and ATP7B) are two highly homologous P-type copper ATPase exporters. Mutations in ATP7A can lead to Menkes disease which is an X-linked disorder of copper deficiency. Mutations in ATP7B can cause Wilson disease which is an autosomal recessive disorder of copper toxicity. In this study, we attempt to build a quantitative relationship between mutated ATPase and Menkes/Wilson disease. First, we use the amino-acid distribution probability as a measure to quantify the difference in ATPase before and after mutation. Second, we use the cross-impact analysis to define the quantitative relationship between mutant ATPase protein and Menkes/Wilson disease, and compute various probabilities. Finally, we use the Bayesian equation to determine the probability that Menkes/Wilson disease is diagnosed under a mutation. The results show (i) the vast majority of mutations lead to the amino-acid distribution probability increase in mutant ATP7As and decrease in ATP7Bs, and (ii) the probability that a mutation causes Menkes/Wilson disease is about nine tenth. Thus we provide a way to use the descriptively probabilistic method to couple the mutation with its clinical outcome after quantifying mutations in proteins.
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PMID:Quantitative relationship between mutated amino-acid sequence of human copper-transporting ATPases and their related diseases. 1868 37

Menkes disease is a fatal neurodegenerative disorder of infancy caused by defects in an X-linked copper transport gene, ATP7A. Evidence from a recent clinical trial indicates that favorable response to early treatment of this disorder with copper injections involves mutations that retain some copper transport capacity. In three unrelated infants, we identified the same mutation, G727R, in the second transmembrane segment of ATP7A that complemented a Saccharomyces cerevisiae copper transport mutant, consistent with partial copper transport activity. Quantitative reverse transcription-polymerase chain reaction studies showed approximately normal levels of ATP7A(G727R) transcript in two patients' fibroblasts compared to wild-type controls, but Western blot analyses showed markedly reduced quantities of ATP7A, suggesting post-translational degradation. We confirmed the latter by comparing degradation rates of mutant and wild-type ATP7A via cyclohexamide treatment of cultured fibroblasts; half-life of the G727R mutant was 2.9h and for the wild-type, 11.4h. We also documented a X-box binding protein 1 splice variant in G727R cells-known to be associated with the cellular misfolded protein response. Patient A, diagnosed 6 months of age, began treatment at 228days (7.6 months) of age. At his current age (2.5 years), his overall neurodevelopment remains at a 2- to 4-month level. In contrast, patient B and patient C were diagnosed in the neonatal period, began treatment within 25 days of age, and show near normal neurodevelopment at their current ages, 3years (patient B), and 7 months (patient C). The poor clinical outcome in patient A with the same missense mutation as patient A and patient B with near normal oucomes, confirms the importance of early medical intervention in Menkes disease and highlights the critical potential benefit of newborn screening for this disorder.
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PMID:Clinical outcomes in Menkes disease patients with a copper-responsive ATP7A mutation, G727R. 1875 78

The X-linked mosaic mutation in mice belongs to the mottled group of mutations. This group represents animal models of human copper deficiency disease, such as Menkes disease. It has been demonstrated that the disruption of copper metabolism is caused by a mutation in the Atp7a gene and leads to a lethal phenotype. Many similarities between mosaic and other mottled mutants give a strong indication that this mutation could occur in the cDNA of the Atp7a gene. In this paper, the cDNA of this gene was sequenced from 9 unrelated mutants and 7 unrelated control mice. It was found that a CAG insertion at the end of the 4th exon exists in the mutants but not in control cDNA. The same CAG insertion was previously described as a polymorphism in alternative splicing between BALB/c and C57BL/6 mice, therefore it is suggested that this changed sequence is a polymorphism strongly related to the phenotype rather than it is the cause of mutation. However, such a strong linkage between this polymorphism and the mosaic phenotype (lasting for 96 outbred generations), suggests that the mutation is in the Atp7a gene.
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PMID:Alternative splicing in the Atp7a gene in the Cu deficient mosaic mutation in mice. 1905 63

Menkes syndrome is an X-linked, fatal neurodegenerative disorder of copper metabolism, caused by mutations in the ATP7A gene, encoding a copper-transporting P1B-type ATPase. To date, a total of approximately 160 different mutations have been reported worldwide. The clinical phenotypes observed in these patients include progressive neuro-degeneration, connective-tissue abnormalities and peculiar hair. There is phenotypic variability. While the majority of the patients do not survive early childhood, milder cases leading to longer survival have been reported. In this review we focus on mutations, identified in patients with milder forms of Menkes disease, and discuss the possibility of establishing a genotype-phenotype correlation. The presence of small amounts of normal protein, or the presence of partly functional protein variants containing a less essential amino acid substitution or a truncation of the N- or C-terminus, might all result in a milder, atypical phenotype. A clear phenotype-genotype correlation is however difficult to establish, clearly illustrated by the presence of inter- and even intra-familial variability.
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PMID:Molecular diagnosis of Menkes disease: genotype-phenotype correlation. 1950 26

Distal hereditary motor neuropathies comprise a clinically and genetically heterogeneous group of disorders. We recently mapped an X-linked form of this condition to chromosome Xq13.1-q21 in two large unrelated families. The region of genetic linkage included ATP7A, which encodes a copper-transporting P-type ATPase mutated in patients with Menkes disease, a severe infantile-onset neurodegenerative condition. We identified two unique ATP7A missense mutations (p.P1386S and p.T994I) in males with distal motor neuropathy in two families. These molecular alterations impact highly conserved amino acids in the carboxyl half of ATP7A and do not directly involve the copper transporter's known critical functional domains. Studies of p.P1386S revealed normal ATP7A mRNA and protein levels, a defect in ATP7A trafficking, and partial rescue of a S. cerevisiae copper transport knockout. Although ATP7A mutations are typically associated with severe Menkes disease or its milder allelic variant, occipital horn syndrome, we demonstrate here that certain missense mutations at this locus can cause a syndrome restricted to progressive distal motor neuropathy without overt signs of systemic copper deficiency. This previously unrecognized genotype-phenotype correlation suggests an important role of the ATP7A copper transporter in motor-neuron maintenance and function.
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PMID:Missense mutations in the copper transporter gene ATP7A cause X-linked distal hereditary motor neuropathy. 2017 Sep

The primary mechanism of copper transport to the brain is unknown, although this process is drastically impaired in Menkes disease, an X-linked neurodevelopmental disorder caused by mutations in an evolutionarily conserved copper transporter, ATP7A. Potential central nervous system entry routes for copper include brain capillary endothelial cells that originate from mesodermal angioblasts and form the blood-brain barrier, and the choroid plexuses, which derive from embryonic ectoderm, and form the blood-cerebrospinal fluid barrier. We exploited a rare (and first reported) example of somatic mosaicism for an ATP7A mutation to shed light on questions about copper transport into the developing brain. In a 20-month-old Menkes disease patient evaluated before copper treatment, blood copper, and catecholamine concentrations were normal, whereas levels in cerebrospinal fluid were abnormal and consistent with his neurologically severe phenotype. We documented disparate levels of mosaicism for an ATP7A missense mutation, P1001L, in tissues derived from different embryonic origins; allele quantitation showed P1001L in approximately 27% of DNA samples from blood cells (mesoderm-derived) and 88% from cultured fibroblasts (ectoderm-derived). These findings imply that the P1001L mutation in the patient preceded formation of the three primary embryonic lineages at gastrulation, with the ectoderm layer ultimately harboring a higher percentage of mutation-bearing cells than mesoderm or endoderm. Since choroid plexus epithelia are derived from neuroectoderm, and brain capillary endothelial cells from mesodermal angioblasts, the clinical and biochemical findings in this infant support a critical role for the blood-CSF barrier (choroid plexus epithelia) in copper entry to the developing brain.
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PMID:Somatic mosaicism in Menkes disease suggests choroid plexus-mediated copper transport to the developing brain. 2079 18

Copper is a trace element that is essential for the normal growth and development of all living organisms. In mammals, the ATP7A Cu-transporting ATPase is a key protein that is required for the maintenance of copper homeostasis. In both humans and mice, the ATP7A protein is coded by the X-linked ATP7A/Atp7a gene. Disturbances in copper metabolism caused by mutations in the ATP7A/Atp7a gene lead to severe metabolic syndromes Menkes disease in humans and the lethal mottled phenotype in mice. Mosaic is one of numerous mottled mutations and may serve as a model for a severe Menkes disease variant. In Menkes patients, mutations in the ATP7A gene often result in a decreased level of the normal ATP7A protein. The aim of this study was to analyse the expression of the Atp7a gene in mosaic mutants in early postnatal development, a critical period for starting copper supplementation therapy in both Menkes patients and mutant mice. Using real-time quantitative RT-PCR, we analysed the expression of the Atp7a gene in the brain, kidney and liver of newborn (P0.5) and suckling (P14) mice. Our results indicate that in mosaic P0.5 mutants, the Atp7a mRNA level is decreased in all analysed organs in comparison with wild-type animals. In two week-old mutants, a significant decrease was observed only in the kidney. In contrast, their hepatic level of Atp7a tended to be higher than in wild-type mice. We speculate that disturbance in the expression of the Atp7a gene and, consequently, change in the copper concentration of the organs, may contribute to the early fatal outcome of mosaic males.
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PMID:Alterations in the expression of the Atp7a gene in the early postnatal development of the mosaic mutant mice (Atp7a mo-ms) - An animal model for Menkes disease. 2083 4

Ehlers-Danlos type IX syndrome, also called occipital horn syndrome (OHS), is a milder and rare form of Menkes disease where the patient reaches adulthood. As an X-linked disease, it typically occurs in male subjects, while female subjects are usually healthy carriers. OHS is mainly characterized by connective tissue disorders and slightly subnormal intelligence or signs of autonomic dysfunction are the only apparent neurological abnormalities, in connection with molecular defects in copper metabolism. Our purpose is to report on radiological skeletal findings that may be incidental or investigated when OHS is suspected and to underline the possible involvement and expression in the female. Moreover, the impact of skeletal findings is also highlighted in the prevention of serious complications of the disease.
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PMID:Occipital horn syndrome in a woman: skeletal radiological findings. 2155 36


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