Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Understanding of the pathogenesis of cerebral vasospasm requires basic study of the contraction mechanism of cerebral arteries. In this study, the morphological and biochemical properties of actomyosin from bovine cerebral arteries were examined. Arrays of thick and thin filaments were clearly seen on electron micrographs of a cross section of a muscle strip stretched to 1.5 times its normal length in Krebs-Ringer solution. The diameters of the thick and thin filaments were 110.0 +/- 19.9 A and 51.0 +/- 8.0 A, respectively. The average ratio of thick to thin filaments was about 1:15 to 1:16. The gel pattern of Ca2+-sensitive actomyosin extracted from bovine cerebral arteries revealed the presence of myosin, actin, and tropomyosin, but not skeletal troponin. The Mg-ATPase activity of actomyosin was greatly enhanced in the presence of Ca2+. Rapid superprecipitation occurred after the clearing phase, when 1 mM Mg-ATP was added to a suspension of actomyosin with 10(-5) M Ca2+. This superprecipitation did not occur with a lower Ca2+ concentration of 10(-8) M. Intracellular free Ca2+ appears to play a crucial role in the regulation of contraction and relaxation of cerebral arterial smooth muscle.
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PMID:Mechanism of cerebral vasospasm--contractile proteins in smooth muscle of bovine cerebral artery. 247 51

Endothelial cells are affected in the cerebral vasospasm that occurs at the time of erthyrocyte lysis in a subarachnoid clot. A red blood cell lysate was added to bovine pulmonary artery endothelial cells in vitro to determine whether hemolysate can trigger tyrosine kinase mediated cell signalling and if so, whether this signal is independent of the elevation of intracellular free calcium levels, [Ca2+]i induced by hemolysate. Hemolysate was found by Western blotting to induce a dose dependent increase in the level of tyrosine phosphorylation of two proteins, approximately 60 and 110 kD, that was maximal between 1 and 2 min. The biphasic increase in [Ca2+]i induced by hemolysate consists of a peak complete within 1 min which is the result of release of intracellular calcium stores and a plateau phase due to an influx of extracellular Ca2+. Addition of hemolysate to cells in the presence of EGTA indicated that an extracellular Ca2+ influx is not required for the increases in tyrosine phosphorylation. Release of intracellular Ca2+ stores by thapsigargin, a Ca(2+)-ATPase inhibitor, was, however, found to increase the phosphotyrosine content of the same 60 and 110 kD proteins. Endothelial cells pretreated with tyrosine kinase inhibitors, tyrphostin 25 or genistein, before exposure to hemolysate blocked the plateau phase of the [Ca2+]i response indicating that tyrosine kinase activity is required for the influx. Ca2+ and phosphotyrosine mediated cell signalling induced by hemolysate in endothelial cells may be activated by a single component but represent distinct targets for possible control of the cerebral vasospasm response.
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PMID:Tyrosine phosphorylation and [Ca2+]i elevation induced by hemolysate in bovine endothelial cells: implications for cerebral vasospasm. 887 55

Delayed cerebral vasospasm has a major impact on the outcome of subarachnoid hemorrhage. Two important candidates to cause the arterial spasm are the red blood cell product oxyhemoglobin and the vasoconstrictor endothelin-1, although oxyhemoglobin alone is not sufficient to induce cerebral ischemia and endothelin-1 leads to ischemia only at relatively high concentrations. In this study, we demonstrated that the combination of oxyhemoglobin and endothelin-1 triggered spreading neuronal activation in rat cortex in vivo. In contrast with the expected transient increase of regional cerebral blood flow during spreading depression, however, cerebral blood flow decreased profoundly and was long-lasting, paralleled by delayed repolarization of the steady (direct current) potential. These changes are characteristic of cortical spreading ischemia. Replacing oxyhemoglobin for the nitric oxide synthase inhibitor Nomega-nitro-L-arginine mimicked these effects, implicating nitric oxide scavenging functions of oxyhemoglobin. Furthermore, the effect of endothelin-1 was related to a reduction of Na(+)-/K(+)-ATPase activity rather than solely to its vasoconstrictive properties. In conclusion, the threshold concentration of endothelin-1 that induces cerebral ischemia is profoundly reduced via a complex interaction between the neuronal/astroglial network and the cortical microcirculation if nitric oxide availability declines. The results may have implications for the understanding of subarachnoid hemorrhage-related cortical lesions.
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PMID:Ischemia triggered by spreading neuronal activation is induced by endothelin-1 and hemoglobin in the subarachnoid space. 1459 48

Subarachnoid hemorrhage from a ruptured aneurysm is a subset of stroke. The young age (median 55 years) and poor outcome (50% of patients die; 30% of survivors remain dependent) explain why in the population the loss of productive life years from aneurysmal subarachnoid hemorrhage (SAH) is as large as that from brain infarcts, the most common type of stroke. Ischemia plays an important role in the pathophysiological process after SAH. A period of global cerebral ischemia firstly occurs in the acute phase, immediately after rupture of the aneurysm, due to acute vasoconstriction and elevated intracranial pressure, which leads to a drop in perfusion pressure. This is quite distinct from the secondly, delayed cerebral ischemia (DCI), which is focal or multi-focal. DCI usually occurs between 4 and 10 days after the initial bleeding, has a gradual onset and is multi-focal, and is an important cause of death and dependency after SAH. The interval between the bleeding and the onset of ischemia provides an opportunity for preventive treatment. Magnesium is readily available, inexpensive and has a well-established clinical profile in obstetrical and cardiovascular practice. It is beneficial in the treatment of eclampsia, a disease with a pathophysiology comparable to DCI after subarachnoid hemorrhage. Neuroprotective mechanisms of magnesium include inhibition of the release of excitatory amino-acids and blockade of the NMDA-glutamate receptor. Magnesium is also a non-competitive antagonist of voltage dependent calcium channels, has cerebrovascular dilatory activity and is an important co-factor of cellular ATPases, including the Na/K-ATPase. Magnesium can reverse delayed cerebral vasospasm and reduces the extent of acute ischemic cerebral lesions after experimental subarachnoid hemorrhage in rats. In this article we discuss the neuroprotective potency of magnesium in SAH by describing the pathophysiology of ischaemia after SAH and the many ways magnesium may interfere with this.
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PMID:Potentials of magnesium treatment in subarachnoid haemorrhage. 1572 6

Molecular mechanisms of cerebral vasospasm after subarachnoid hemorrhage (SAH) include specific modes of cell signaling like activation of nuclear factor (NF)-kappaB and vascular cell adhesion molecules (VCAM)-1 expression. The study's hypothesis is that cisternal cerebral spinal fluid (CSF) from patients after SAH may cause Ca(2+) oscillations which induce these modes of vascular inflammation in an in vitro model of human cerebral endothelial cells (HCECs). HCECs were incubated with cisternal CSF from 10 SAH patients with confirmed cerebral vasospasm. The CSF was collected on days 5 and 6 after hemorrhage. Cytosolic Ca(2+) concentrations and cell contraction as an indicator of endothelial barrier function were examined by fura-2 microflurometry. Activation of NF-kappaB and VCAM-1 expression were measured by immunocytochemistry. Incubation of HCEC with SAH-CSF provoked cytosolic Ca(2+) oscillations (0.31+/-0.09 per min), cell contraction, NF-kappaB activation, and VCAM-1 expression, whereas exposure to native CSF had no significant effect. When endoplasmic reticulum (ER) Ca(2+)-ATPase and ER inositol trisphosphate (IP3)-sensitive Ca(2+) channels were blocked by thapsigargin or xestospongin, the frequency of the Ca(2+) oscillations was reduced significantly. In analogy to the reduction of Ca(2+) oscillation frequency, the blockers impaired HCEC contraction, NF-kappaB activation, and VCAM-1 expression. Cisternal SAH-CSF induces cytosolic Ca(2+) oscillations in HCEC that results in cellular constriction, NF-kappaB activation, and VCAM-1 expression. The Ca(2+) oscillations depend on the function of ER Ca(2+)-ATPase and IP3-sensitive Ca(2+) channels.
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PMID:Cytosolic Ca2+ oscillations in human cerebrovascular endothelial cells after subarachnoid hemorrhage. 1869 33