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:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In culture the protracted and abusive stimulation of glutamate (GLU) receptors results in neuronal death through a mechanism involving the persistent translocation of PKC and the destabilization of (Ca2+)i homeostasis [(Ca2+)i HD]. In contrast, intermittent GLU receptor use elicits a coordinated expression of immediate early genes (IEG) acting as nuclear third messenger. Brain ischemia also is known to result in the paroxysmal abusive stimulation of glutamate receptors. The glutamate receptive elements in turn degenerate largely as a function of their inability to control homeostatic Ca2+ due to the irreversible translocation of PKC. In the present study we employed an in vivo model of focal brain ischemia using the photosensitive dye, Rose bengal. With this model we sought to determine the neuroprotective actions of MK-801, a noncompetitive blocker of GLU at the NMDA-sensitive receptor and of the semisynthetic gangliosides LIGA 4 and LIGA 20 which in vitro have been demonstrated to block PKC translocation. Moreover, we sought to establish whether the persistent stimulation of ionotropic glutamate receptors would led to a change in ionotropic glutamate expression in the focal and perifocal area. Importantly, the perifocal area (i. e., the region surrounding the area of primary insult) is a region in which profound cellular reorganization occurs including neuronal death and glial proliferation and is a key region to target various neuroprotective drugs aimed at ameliorating the neurodegeneration following stroke. Receptor abuse dependent antagonists (RADA) drugs such as gangliosides selectively curtail the amplification steps that specifically differentiate signal transduction following physiological receptor use from that following pathological receptor abuse.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sequelae of biochemical events following photochemical injury of rat sensory-motor cortex: mechanism of ganglioside protection. 130 98

The accumulation of both Inositol-(1,4,5)-trisphosphate (IP3) and Inositol-(1,3,4,5)-tetrakisphosphate (IP4) after hormonal stimulation has a physiological role, possibly in altering Ca2+ levels in cardiac tissue. However, the accumulation of inositol polyphosphate under pathophysiological conditions has not been studied. In our experiments the metabolism of phatidylinositol and IP3 in cardiac myocytes as investigated. It was shown that basal levels of cytosolic phosphatidylinositol specific phospholipase C (PI-PLC), phosphatidylinositol-(4,5)-bisphosphate specific phospholipase C (PIP2-PLC) activities markedly increased in stroke-prone spontaneously hypertensive rats (SHRSP) with age compared with age matched Wistar Kyoto rats (WKY). IP3 kinase and IP3 phosphatase activities also increased in SHRSP hearts with age. Their activities increased in WKY, but to a lesser extent than in SHRSPs. These data suggest that a PI turnover pathway such as the phosphatidylinositol 4,5-bisphosphate-IP3-Ca2+ pathway or the diacylglyceride-protein kinase C pathway may have an important role in the development of hypertrophy in SHRSP heart.
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PMID:Phosphatidylinositol and inositolphosphatide metabolism in hypertrophied rat heart. 131 48

Platelets from stroke-prone spontaneously hypertensive rats (SHRSP) show severe hypofunctions accompanied by defective protein (P47) phosphorylation. To examine the mechanism of platelet hypofunctions, phospholipid metabolism in SHRSP was compared with that in Wistar Kyoto rats (WKY). Phosphatidylinositol (PI) content was 20% less in SHRSP than in WKY, but no changes were observed in other phospholipids. Incorporation of [3H]-arachidonic acid (AA) into PI and phosphatidylethanolamine (PE) was 12% and 11% lower, and that into phosphatidylcholine (PC) was 6% higher in SHRSP than in WKY. Thrombin-induced diacylglycerol and phosphatidic acid formation were similar in both groups of platelets. Thrombin-induced release of [14C]-AA from the labeled platelets and its metabolism to eicosanoids occurred at similar rates. These results suggest that reduced formation of diacylglycerol, an activator of protein kinase C (PKC), does not cause defective phosphorylation of P47, a substrate of PKC, in SHRSP. However it remains unclear how the lower PI content and the altered distribution of AA in PC and PE is related to SHRSP platelet hypofunctions.
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PMID:Phospholipid metabolism in platelets from stroke-prone spontaneously hypertensive rats and Wistar Kyoto rats. 132 96

The Mongolian gerbil was used as a model of aging because of its relatively short lifespan, genetic homogeneity and the fact that data had been collected previously. Furthermore, gerbils have been widely used in biomedical investigations of stroke and epilepsy. Age-related differences in signal transmission and transduction systems were investigated in brains of three-, 11- and 21-month-old gerbils by morphological and in vitro receptor autoradiographic studies. Morphometric analysis revealed a decreased number of neurons in layer III of the occipital cortex and also a decrease in cerebellar Purkinje cells in 21-month-old animals. However, no statistical differences were observed in the hippocampal formation, the dorsolateral striatum and layer III of the frontal cortex. Autoradiography was used to map muscarinic cholinergic (labeled with [3H]quinuclidinyl benzilate), serotonin2 ([3H]spiperone), dopamine D2 ([3H]spiperone), adenosine A1 ([3H]cyclohexyladenosine), GABAA ([3H]muscimol), naloxone ([3H]naloxone), protein kinase C ([3H]phorbol 12,13-dibutyrate), adenylate cyclase ([3H]forskolin), cyclic AMP ([3H]cyclic AMP) and L-type Ca2+ channels ([3H]PN200-110). Muscarinic cholinergic receptor and protein kinase C, cyclic AMP and L-type Ca2+ channels were significantly decreased in the cerebral cortex and/or in the CA1 subfield of the hippocampus in the 21-month-old group. Muscarinic cholinergic receptor and L-type Ca2+ channel binding sites were significantly reduced in the dentate gyrus. In contrast, protein kinase C was increased in this area in the 21-month-old group. Also, naloxone binding sites were increased in the CA3 subfield, hilus, dentate gyrus and molecular layer of the cerebellum in the 11- and 21-month-old groups. Muscarinic cholinergic, serotonin2 and dopamine D2 receptors and adenylate cyclase were significantly decreased in the striatum. On the other hand, adenosine A1 and GABAA receptors remained unchanged in the 21-month-old group. Although age-related histopathological abnormalities were only observed in the occipital cortex and in the cerebellum, alterations of signal transmission and transduction systems were noticed in all areas examined (e.g. cerebral cortex, CA1 subfield, dentate gyrus and striatum). These data indicate that changes in these receptors and binding sites may be related to dysfunction of learning and memory and to the loss of motor function. The aged gerbil model is a good system for studying aging and is of value for simulating aging after epilepsy and stroke.
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PMID:Effects of aging on signal transmission and transduction systems in the gerbil brain: morphological and autoradiographic study. 134 8

This study examined the calcium dependency of contractions in arteries from rats made hypertensive by aortic coarctation and in rats with genetic hypertensive (stroke-prone spontaneously hypertensive rats). Mesenteric artery and aortic strips were suspended in tissue baths for isometric force recording and contractions to two drugs were characterized: 1) a phorbol ester, TPA (12-O-tetrade-canoylphorbol-13-acetate), and 2) the calcium channel agonist, Bay K 8644. Thoracic aortae and mesenteric arteries from hypertensive rats were more sensitive to the contractile properties of the protein kinase C activator TPA than comparable arteries from normotensive rats. In thoracic aortae from coarcted rats, the contractile activity of Bay K 8644 was potentiated compared to normotensive values. In the presence of 19.2 mmol/L KCl, responses to Bay K 8644 in thoracic aortae from normotensive rats were potentiated and did not differ from coarcted values. In contrast, contractions to Bay K 8644 and TPA in abdominal aortae obtained below the coarctation were not different from normotensive values. Upon exposure to 26.2 mmol/L KCl, contractions to Bay K 8644 in abdominal aortae were potentiated and those in aortae from coarcted rats did not differ from sham values. Contractile responses to both drugs were blocked by nifedipine and verapamil and responses were attenuated in calcium-free solution. We conclude that calcium channel function and its regulation by protein kinase C contribute to altered vascular reactivity in hypertension. Further, these abnormalities have a pressure dependency, because they did not occur in abdominal aortae from coarcted rats.
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PMID:Calcium and contractile responses to phorbol esters and the calcium channel agonist, Bay K 8644, in arteries from hypertensive rats. 169 54

We previously suggested that activation of the protein kinase C-mediated contractile system may participate in the occurrence of chronic cerebral vasospasm. In the present study, we compared segments of normal beagle basilar arteries in vitro with segments of arteries undergoing chronic vasospasm to determine the responsiveness to various agonists such as serotonin, prostaglandin F2 alpha, and phorbol 12,13-diacetate as well as to external Ca2+. We also compared the effects of W-7 (a calmodulin inhibitor), nicardipine (a calcium channel blocker), and H-7 (a protein kinase C inhibitor) on the spontaneous tonus of arterial segments stabilized at a resting tension of 3 g. Compared with normal segments, the responsiveness to each agonist in segments undergoing vasospasm was essentially unchanged whereas the the responsiveness to external Ca2+ was significantly decreased (p less than 0.001). In segments undergoing vasospasm the decrease in resting tension induced by W-7 was markedly diminished (p less than 0.01), that induced by nicardipine was unchanged, and that induced by H-7 was significantly increased (p less than 0.01). Our results indicate that spontaneous tonus due to activation of the protein kinase C system is significantly augmented in segments undergoing vasospasm. Thus this system, rather than the Ca2+/calmodulin system, appears to play a major role in the occurrence of chronic vasospasm.
Stroke 1991 Sep
PMID:Activation of the protein kinase C-mediated contractile system in canine basilar artery undergoing chronic vasospasm. 192 62

Glutamate, an excitatory amino acid (EAA), plays an important role in neuron to neuron signaling by binding to specific receptors. When, during neuronal firing, quanta of glutamate are released from the nerve terminal, they interact with the receptors for a few milliseconds and, thereafter, glutamate is promptly cleared by appropriate mechanisms. The neurotoxic action of glutamate arises from its capacity to trigger a pathophysiological chain of events when it acts continuously and abusively on its receptors (e.g., during cerebral edema associated with trauma, ischemia, stroke). In primary cultures of cerabellar granule neurons the abusive stimulation of EAA receptors by glutamate amplifies pathologicaly two early intracellular signals: free cytosolic Ca++ and the translocation of protein kinase C (PKC) from cytosol to neuronal membrane. Both of these signals persist unabated even after removal of glutamate from the incubation medium. Natural gangliosides and their semisynthetic derivatives protect neurons from glutamate toxicity by blocking the consequences of receptor abuse but they leave physiological responses to glutamate unaffected; hence they represent a prototype of a "receptor abuse dependent antagonist" (RADA).
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PMID:Ganglioside-mediated protection from glutamate-induced neuronal death. 198 78

Many investigations have shown that calcium and adenosine triphosphate are crucial to central nervous system functions. It is probable that alterations of these substances during central nervous system ischemia are involved in the processes that cause irreversible neural damage. Calcium regulates several protein kinases that are responsible for phosphorylation of proteins vital for many central nervous system functions. Using a rabbit spinal cord ischemia model, we found protein kinase C and calcium/calmodulin-dependent kinase were severely affected during the first hour of ischemia. Protein kinase A was not significantly affected. The time course of lost protein kinase C enzyme activity closely corresponded to irreversible loss of neurologic function, and there is evidence that protein kinase C inhibitor activity is generated. Also, drugs that inhibit protein kinase C increased neurologic damage when administered during the early phases of ischemia. These results suggest that protein phosphorylation, particularly by protein kinase C, is critical to maintenance of neurologic function.
Stroke 1990 Nov
PMID:Protein phosphorylation during ischemia. 223 67

The mechanism of platelet dysfunctions in stroke-prone spontaneously hypertensive rats (SHRSP) was investigated. Platelet aggregation was inversely correlated with blood pressure or heart weight/body weight ratios in various strains of spontaneously hypertensive rats (SHR), indicating genetic defects. Thrombin-induced 47 kDa protein phosphorylation was markedly reduced in platelets of SHRSP compared with that in Wistar-Kyoto (WKY) rat platelets, accompanying reduced aggregation and secretion, but in 20 kDa protein phosphorylation was unchanged. Ca2+ ionophore A23187-induced responses were also significantly decreased in SHRSP, and the degrees of the changes were greater than those by thrombin. However, 12-O-tetradecanoylphorbol 13-acetate-induced responses in SHRSP were similar to those in WKY rats, suggesting that protein kinase C activity and its substrate were normally present in SHRSP platelets. Phosphatidylinositol content in platelets of SHRSP was 20% less than that in WKY rat platelets, but the contents of other phospholipids, including phosphatidylinositol-4-monophosphate and phosphatidylinositol-4,5-bisphosphates, were unaltered. Thrombin-induced formation of diacylglycerols and phosphatidic acid did not differ from each other at the low concentrations. In the absence of Ca2+, thrombin-induced responses occurred to a similar degree in both platelets, whereas the enhancements by Ca2+ were much greater in WKY rats than in SHRSP. These results suggested that defective Ca2+ functions in receptor-mediated activation of protein kinase C and postkinase-mediated events appear to be an underlying mechanism for the hypofunctions in SHRSP platelets.
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PMID:Defective protein phosphorylation associated with hypofunctions in stroke-prone spontaneously hypertensive rat platelets. 250 71

The effects of lanthanum on the contraction induced by the protein kinase C activator, 12-O-tetradecanoylphorbol-13-acetate (TPA) were studied in femoral artery rings from stroke-prone, spontaneously hypertensive rats (SHRSP) and normotensive Wistar-Kyoto rats (WKY). When exposed to a calcium-free buffer containing 1 mmol/l EGTA, the femoral artery rings from SHRSP and WKY, pre-contracted with TPA (10(-6) mol/l), relaxed by 52 and 24%, respectively. Treatment of the rings in this calcium-free buffer with 2.6 mmol/l lanthanum significantly potentiated the TPA-induced contractions in vascular rings from WKY (49%) and SHRSP (136%). Potentiation by lanthanum of the TPA-induced contraction in the absence of extracellular calcium suggests that this cation is acting intracellularly to increase protein kinase C activity. The increased vascular responsiveness of SHRSP to lanthanum may reflect an abnormality in protein kinase C activation in vascular smooth muscle of genetically hypertensive rats.
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PMID:Lanthanum potentiation of the vascular response to a protein kinase C activator in genetically hypertensive rats. 263 98


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