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Target Concepts:
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Query: UMLS:C0022716 (
Menkes
)
1,057
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Arterial involvement is an important feature of the diagnosis and, above all, prognosis of heritable disorders of connective tissue. In pseudoxanthoma elasticum, a progressive occlusive syndrome is associated with hemorrhage and especially with gastrointestinal bleeding. Aneurysms are uncommon.
Hypertension
occurs frequently. Cutaneous signs (yellowish pseudo xanthomatous papules of the large folds) the ocular changes (angioid streaks) and pathology showing numerous, thickened, fragmented, disorganized, calcified elastic fibers in the deep dermis and arterial walls, allow the diagnosis to be made. In the heterogeneous group of Ehlers-Danlos syndromes, type IV is characterized by sudden spontaneous rupture of the large arteries. Aneurysms and carotido-cavernous fistulae are rather frequent. Owing to friability of the arterial walls, arteriograms and other procedure requiring arterial puncture may prove hazardous and surgery difficult. Such patients have an acrogeric morphotype, and thin, fragile skin, but cutaneous hyperelasticity and joint hyperlaxity are usually minimal. Pathology evidences collagen hypoplasia in the skin and arterial walls. The severity of Marfan syndrome is due to aortic involvement. A fusiform aneurysm of the ascending aorta represents a vital risk of rupture. Aortic root dilatation is associated and responsible of severe aortic regurgitation. Aortic dissection is also a serious threat. Improved surgical techniques for repairing a dilated or dissected aortic root with simultaneous replacement of the aortic valve increases the life expectancy of such patients. Dolichomorphism is the characteristic skeletal abnormality, particularly with arachnodactyly and upward ectopia lentis, which is almost bilateral, is a very frequent feature of Marfan syndrome. The most typical histological finding is aortic cystic median necrosis. The basic defect in Marfan syndrome concerns the fibrillin, whose gene is located on chromosome 15. The three diseases detailed in this paper constitute the main areas of this subject, but arterial involvement may occur in other inheritable disorders of connective tissue (osteogenesis imperfecta, cutis laxa, Werner syndrome,
Menkes syndrome
, etc).
...
PMID:[Arterial involvements in hereditary dysplasia of the connective tissue]. 805 35
Extracellular superoxide dismutase (SOD3), a secretory copper enzyme, plays an important role in atherosclerosis and
hypertension
by modulating the levels of extracellular superoxide anion (O2*-) in the vasculature. Little is known about the mechanisms by which SOD3 obtains its catalytic copper cofactor.
Menkes
ATPase (MNK) has been shown to transport cytosolic copper to the secretory pathway in nonvascular cells. We performed the present study to determine whether MNK is required for the activation of SOD3 in the vasculature. Here we show that MNK was highly expressed in the various vascular tissues and cells. Aortas and cultured fibroblasts from MNK mutant (MNK(mut)) mice showed a marked decrease in specific activity of SOD3, but not SOD1 (cytosolic form), which was partially restored by copper addition. Copper treatment in wild-type cells promoted the direct interaction and colocalization of SOD3 with MNK in the trans-Golgi network (TGN), suggesting that MNK transports copper to SOD3 in the TGN. Aortas of MNK(mut) mice revealed a decrease in activity of SOD3, but not SOD1, in association with a robust increase in O2*- levels. Finally, both MNK and SOD3 proteins were highly expressed in the intimal lesions of atherosclerotic vessels. In conclusion, vascular MNK plays an essential role in full activity of SOD3 through transporting copper to SOD3 in the TGN, thereby regulating O2*- levels in the vasculature. These studies provide a novel insight into vascular MNK as a critical modulator of "superoxide" stress, which may contribute to cardiovascular disease.
...
PMID:Essential role for the Menkes ATPase in activation of extracellular superoxide dismutase: implication for vascular oxidative stress. 1637 25
The extracellular superoxide dismutase (SOD3), a secretory copper-containing enzyme, regulates angiotensin II (Ang II)-induced
hypertension
by modulating levels of extracellular superoxide anion. The present study was designed to determine the role of the copper transporter
Menkes
ATPase (MNK) in Ang II-induced SOD3 activity and
hypertension
in vivo. Here we show that chronic Ang II infusion enhanced systolic blood pressure and vascular superoxide anion production in MNK mutant (MNK(mut)) mice as compared with those in wild-type mice, which are associated with impaired acetylcholine-induced endothelium-dependent vasorelaxation in MNK(mut) mice. These effects in MNK(mut) mice are rescued by infusion of the SOD mimetic Tempol. By contrast, norepinephrine-induced
hypertension
, which is not associated with an increase in vascular superoxide anion production, is not affected in MNK(mut) mice. Mechanistically, basal and Ang II infusion-induced increase in vascular SOD3-specific activity is significantly inhibited in MNK(mut) mice. Coimmunoprecipitation analysis reveals that Ang II stimulation promotes association of MNK with SOD3 in cultured vascular smooth muscle cell and in mouse aortas, which may contribute to SOD3-specific activity by increasing copper delivery to SOD3 through MNK. In summary, MNK plays an important role in modulating Ang II-induced
hypertension
and endothelial function by regulating SOD3 activity and vascular superoxide anion production and becomes a potential therapeutic target for oxidant stress-dependent cardiovascular diseases.
Hypertension
2008 Nov
PMID:Role of Menkes ATPase in angiotensin II-induced hypertension: a key modulator for extracellular superoxide dismutase function. 1876 96
Nonaccidental head injury in children (NAHI), most often due to abusive head trauma (AHT), is not uncommon and carries a high risk of mortality and morbidity. Intracranial lesions encountered are mainly subdural hematomas. Despite heterogeneous clinical presentation, symptoms are related to brain edema with intracranial
hypertension
and/or seizures that should prompt early diagnosis and treatment. Two main differential diagnoses are glutaric aciduria type 1 and
Menkes disease
, two inborn errors of metabolism that require specific diagnostic procedures and treatment. The aim of emergency treatment is to control seizures, prevent seizure recurrence, and decrease intracranial pressure. Because NAHI/AHT carries a worse prognosis than accidental head traumatism - with specific risk factors such as initial clinical status, age, aspect of initial CT scan, associated retinal hemorrhage, seizure recurrence - these children need close clinical, neurological, and radiological monitoring in neurointensive care units. It is therefore important to identify the nonaccidental origin of the injury at the earliest opportunity so that the appropriate intervention, including social evaluation and reporting suspected cases to judicial authorities, can be made to protect the child from further harm.
...
PMID:Nonaccidental head injury. 2362
