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:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma concentrations of plasminogen activator activity (PAA) and factor VIII are partly controlled by circulating adrenaline and vasopressin. Acute rises in PAA and factor VIII occur during electroconvulsive therapy (ECT). To investigate the relationships between vasopressin (aVP), adrenaline and changes in PAA and factor VIII during ECT, 8 female and 2 male patients, median age 57 years (range 39-75) undergoing modified ECT had venous blood samples taken before and at 2 min, 15 min, 60 min and 24 h after cessation of seizure activity. AVP rose from 0.5 before ECT to 35.5 pg/ml at 2 min (P less than 0.005) and fell thereafter. PAA (10(6)/ECLT2) increased from 22 to 69 units (P less than 0.005) over the same time and fell to 13 units at 24 h (P less than 0.02). Tissue plasminogen activator activity (tPA) rose from 162 before to 1447 mIU/ml at 2 min. (P less than 0.005) and its inhibition activity fell from 8 to 3.75 IU/ml (P less than 0.005) over the same time and rose to 10.4 IU/ml after 24 h (P less than 0.02). There were no changes in adrenaline, noradrenaline, factor VIIIc, vWF or fibrinopeptides A and B beta 15-42. AVP correlated with tPA (rs = 0.64, P = 0.0022) and PAA (rs = 0.61, P = 0.004). These results support the hypothesis that aVP has a role in the regulation of fibrinolytic activity mediated by an increase in tPA. The absence of a factor VIII response may indicate that adrenaline is more important in the regulation of factor VIIIc and vWF.
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PMID:The effect of modified electroconvulsive therapy on vasopressin release and haemostasis in man. 212 14

The requirement of protein and messenger RNA synthesis for long-term memory suggests that neural activity induced by learning initiates a cascade of gene expression. Here we use differential screening to identify five immediate-early genes induced by neuronal activity. One of these is tissue-plasminogen activator (tPA), an extracellular serine protease, which is induced with different spatial patterns in the brain by three activity-dependent events: (1) convulsive seizure increases expression of tPA in the whole brain; (2) stimulation of the perforant path produces an epileptiform after-discharge that ultimately leads to kindling increases the levels of tPA throughout the hippocampus bilaterally; and (3) brief high-frequency stimulation of the perforant path that produces long-term potentiation (LTP) causes an NMDA (N-methyl-D-aspartate) receptor-mediated increase in the levels of tPA mRNA which is restricted to the granule cells of the ipsilateral dentate gyrus. As release of tPA is correlated with morphological differentiation, the increased expression of tPA may play a role in the structural changes that accompany activity-dependent plasticity.
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PMID:Tissue-plasminogen activator is induced as an immediate-early gene during seizure, kindling and long-term potentiation. 842 85

Alloimmune thrombocytopenia of the newborn (AITN) is due to the transplacental passage of maternal antibodies directed against fetal platelet antigens, most commonly PLA, (HPA-1a). Sensitization and clinical manifestations of disease can occur in the first pregnancy. It carries a mortality rate of 15%, usually due to intracranial hemorrhage (ICH). Twenty-four cases of AITN were reviewed, five of whom had radiological evidence of ICH in utero. Petechiae and/or bruising were present in 14 babies. Platelet counts at birth ranged from 5 to 206 x 10(9)/L. One infant died. The duration of follow-up for the four survivors of ICH ranged from 15 to 71 months. All had serious neurodevelopmental sequelae, including severe mental retardation, cortical blindness, seizures, and cerebral palsy. The emotional and financial cost created by the care of these children is immeasurable. Steps to identify and prevent AITN should be part of routine prenatal care if we are to reduce the morbidity and mortality caused by this disorder.
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PMID:Alloimmune thrombocytopenia of the newborn: neurodevelopmental sequelae. 872 21

In Italy (130,000 new strokes in the general population per year) ischemic stroke is the third cause of death, after cardiovascular disease and neoplastic disease with a prevalence of 6.5%. Different physicians are involved in the emergent evaluation and treatment of the acute ischemic stroke. As other acute events, the initial evaluation must be addressed to assess the patient's airway and breath-ing and cardiocirculatory conditions. The neurological examination must not be exhaustive and it should be completed in 5-10 minutes and a particular attention should be given to clinical findings leading to the suspect of an intracranial hemorrhages. A plain CT scan of the brain is the most important initial diagnostic study. Emergency therapy must be mainly directed to the correction of hypovolemia, hypoxia and the treatment of severe hypertension, hypoglycemia, intracranial hypertension and seizures. The goal is to achieve and to maintain an adequate cerebral perfusion by lowering the intracranial pressure (treating the cerebral oedema) and by increasing the mean arterial pressure, with an appropriate volemic expansion and/or with inotropic or vasopressor drugs. The thrombolytic therapy with intravenous recombinant tessutal plasminogen activator (r-TPA) when not specifically contraindicated, is recommended within 3 hours of onset of ischemic stroke. The benefit of intravenous r-TPA for acute ischemic stroke beyond 3 hours from the onset has never been proved.
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PMID:Stroke patients, what to do and what to avoid. 1202 99

Cell signaling commanding death or survival in human epileptic hippocampus is difficult to trace because of the long interval between the beginning of symptoms and the sampling of damaged cerebral tissue for neuropathological examination. Intraperitoneal injection of the glutamate analogue kainic acid (KA) is a useful tool to analyze the effects of seizures and the excitotoxic damage in the rodent hippocampus. KA acts on NMDA and KA receptors, whereas it has little impact on AMPA receptors. Neurons of the hilus and CA3 neurons are primary targets of KA, although parvalbumin containing GABAergic neurons are less vulnerable than glutamatergic neurons. Immediate responses to KA are hsp 70 mRNA induction and HSP 70/72 protein expression, as well as c fos and c jun mRNA, and c Fos and c Jun protein expression in the hippocampus. Yet increased c Fos and c Jun expression is not a predictor of cell death or cell survival. In contrast, the tissular plasminogen activator (tPA) and the membrane Fas/Fas L signaling pathway probably have a role in facilitating cell death following KA injection. The involvement of other pathways remains controversial. Increased expression of the pro apoptotic Bax together with decreased Bcl 2 suggests Bax mediated apoptosis. Activation of the mitochondrial pathway includes leakage of citochrome c to the cytosol and activation of the caspase cascade leading to apoptosis. However, other studies have emphasized the limited expression of caspase 3, the main executioner of apoptosis, and the relevance of necrosis as the main form of cell death following KA excitotoxicity. Phosphorylation dependent activation of several kinases, including MAPK, p 38 and JNK/SAPK, and their substrates has been found in KA treated animals. Decreased CREBp expression is associated with cell death whereas increased ATF 2P and Elk 1P are associated with cell survival. Trophic factors probably do not play a significant role during the early stages of hippocanmpal damage but they are important in the remodeling of the granukle cells and the sprouting of mossy fibers to the molecular layer of the dentate gyrus. This abnormal regeneration, in turn, facilitates seizure recruitment and the chronic maintenance of convulsions.
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PMID:[Cell signaling in the epileptic hippocampus]. 1204 Apr 99

Tissue-type plasminogen activator (tPA) is a highly specific serine proteinase expressed in the CNS during events that require neuronal plasticity. In this study we demonstrate that endogenous tPA mediates the progression of kainic acid-induced (KA-induced) seizures by promoting the synchronization of neuronal activity required for seizure spreading, and that, unlike KA-induced cell death, this activity is plasminogen-independent. Specifically, seizure induction by KA injection into the amygdala induces tPA activity and cell death in both hippocampi, and unilateral treatment of rats with neuroserpin, a natural inhibitor of tPA in the brain, enhances neuronal survival in both hippocampi. Inhibition of tPA within the hippocampus by neuroserpin treatment does not prevent seizure onset but instead markedly delays the progression of seizure activity in both rats and wild-type mice. In tPA-deficient mice, seizure progression is significantly delayed, and neuroserpin treatment does not further delay seizure spreading. In contrast, plasminogen-deficient mice show a pattern of seizure spreading and a response to neuroserpin that is similar to that of wild-type animals. These findings indicate that tPA acts on a substrate other than plasminogen and that the effects of neuroserpin on seizure progression and neuronal cell survival are mediated through the inhibition of tPA.
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PMID:Regulation of seizure spreading by neuroserpin and tissue-type plasminogen activator is plasminogen-independent. 1207 Feb 98

Neuroserpin is a member of the serine proteinase inhibitor (serpin) gene family that reacts preferentially with tissue-type plasminogen activator (tPA) and is primarily localized to neurons in regions of the brain where tPA is also found. Outside of the central nervous system (CNS) tPA is predominantly found in the blood where its primary function is as a thrombolytic enzyme. However, tPA is also expressed within the CNS where it has a very different function, promoting events associated not only with synaptic plasticity but also with cell death in a number of settings, such as cerebral ischemia and seizures. Neuroserpin is released from neurons in response to neuronal depolarization and plays an important role in the development of synaptic plasticity. Following the onset of cerebral ischemia there is an increase in both tPA activity and neuroserpin expression in the area surrounding the necrotic core (ischemic penumbra), and treatment with neuroserpin following ischemic stroke or overexpression of the neuroserpin gene results in a significant decrease in the volume of the ischemic area as well as in the number of apoptotic cells. TPA activity and neuroserpin expression are also increased in specific areas of the brain by seizures, and treatment with neuroserpin slows the progression of seizure activity throughout the CNS and results in significant neuronal survival in the hippocampus. Mutations in human neuroserpin result in a form of autosomal dominant inherited dementia which is characterized by the presence of intraneuronal inclusion bodies and is known as Familial Encephalopathy with Neuroserpin Inclusion Bodies.
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PMID:Neuroserpin: a selective inhibitor of tissue-type plasminogen activator in the central nervous system. 1498 20

Tissue-type plasminogen activator (tPA) has been involved in both physiological and pathological glutamatergic-dependent processes, such as synaptic plasticity, seizure, trauma, and stroke. In a previous study, we have shown that the proteolytic activity of tPA enhances the N-methyl-D-aspartate (NMDA) receptor-mediated signaling in neurons (Nicole, O., Docagne, F., Ali, C., Margaill, I., Carmeliet, P., MacKenzie, E. T., Vivien, D., and Buisson, A. (2001) Nat. Med. 7, 59-64). Here, we show that tPA forms a direct complex with the amino-terminal domain (ATD) of the NR1 subunit of the NMDA receptor and cleaves this subunit at the arginine 260. Furthermore, point mutation analyses show that arginine 260 is necessary for both tPA-induced cleavage of the ATD of NR1 and tPA-induced potentiation of NMDA receptor signaling. Thus, tPA is the first binding protein described so far to interact with the ATD of NR1 and to modulate the NMDA receptor function.
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PMID:Arginine 260 of the amino-terminal domain of NR1 subunit is critical for tissue-type plasminogen activator-mediated enhancement of N-methyl-D-aspartate receptor signaling. 1544 44

Tissue-type plasminogen activator (tPA) is a highly specific serine proteinase that activates the zymogen plasminogen to the broad-specificity proteinase plasmin. Tissue-type plasminogen activator is found not only in the blood, where its primary function is as a thrombolytic enzyme, but also in the central nervous system (CNS), where it promotes events associated with synaptic plasticity and acts as a regulator of the permeability of the neurovascular unit. Tissue-type plasminogen activator has also been associated with pathological events in the CNS such as cerebral ischemia and seizures. Neuroserpin is an inhibitory serpin that reacts preferentially with tPA and is located in regions of the brain where either tPA message or tPA protein are also found, indicating that neuroserpin is the selective inhibitor of tPA in the CNS. There is a growing body of evidence demonstrating the participation of tPA in a number of physiological and pathological events in the CNS, as well as the role of neuroserpin as the natural regulator of tPA's activity in these processes. This review will focus on nonhemostatic roles of tPA in the CNS with emphasis on its newly described function as a regulator of permeability of the neurovascular unit and on the regulatory role of neuroserpin in these events.
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PMID:New functions for an old enzyme: nonhemostatic roles for tissue-type plasminogen activator in the central nervous system. 1556 35

Chronic ethanol abuse causes up-regulation of NMDA receptors, which underlies seizures and brain damage upon ethanol withdrawal (EW). Here we show that tissue-plasminogen activator (tPA), a protease implicated in neuronal plasticity and seizures, is induced in the limbic system by chronic ethanol consumption, temporally coinciding with up-regulation of NMDA receptors. tPA interacts with NR2B-containing NMDA receptors and is required for up-regulation of the NR2B subunit in response to ethanol. As a consequence, tPA-deficient mice have reduced NR2B, extracellular signal-regulated kinase 1/2 phosphorylation, and seizures after EW. tPA-mediated facilitation of EW seizures is abolished by NR2B-specific NMDA antagonist ifenprodil. These results indicate that tPA mediates the development of physical dependence on ethanol by regulating NR2B-containing NMDA receptors.
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PMID:Ethanol-withdrawal seizures are controlled by tissue plasminogen activator via modulation of NR2B-containing NMDA receptors. 1615 19


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