Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027066 (myoclonus)
 4,275 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ketogenic diet (KD) is an effective treatment for intractable epilepsies. We recently found that KD can prevent seizure and myoclonic jerk in a rat model of post-hypoxic myoclonus. In the present study, we tested the hypothesis that KD can prevent the cerebral ischemic neurodegeneration in this animal model. Rats fed a standard diet or KD for 25 days were being subjected to mechanically induced cardiac arrest brain ischemia for 8 min 30 s. Nine days after cardiac arrest, frozen rat brains were sectioned for evaluation of ischemia-induced neurodegeneration using fluoro-jade (FJ) staining. The FJ positive degenerating neurons were counted manually. Cardiac arrest-induced cerebral ischemia in rats fed the standard diet exhibited extensive neurodegeneration in the CA1 region of the hippocampus, the number of FJ positive neurons was 822+/-80 (n=4). They also showed signs of neurodegeneration in the Purkinje cells of the cerebellum and in the thalamic reticular nucleus, the number of FJ positive neurons in the cerebellum was 55+/-27 (n=4), the number of FJ positive neurons in the thalamic reticular nucleus was 22+/-5 (n=4). In contrast, rats fed KD showed no evidence of neurodegeneration, the number of FJ positive neurons in these areas were zero. The results demonstrate that KD can prevent cardiac arrest-induced cerebral ischemic neurodegeneration in selected brain regions.
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PMID:Ketogenic diet prevents cardiac arrest-induced cerebral ischemic neurodegeneration. 1847 78

Motor deficits are present in cardiac arrest survivors and injury to cerebellar Purkinje cells (PCs) likely contribute to impairments in motor coordination and post-hypoxic myoclonus. N-Methyl-D-aspartic acid (NMDA) receptor-mediated excitotoxicity is a well-established mechanism of cell death in several brain regions, but the role of NMDA receptors in PC injury remains understudied. Emerging data in cortical and hippocampal neurons indicate that the GluN2A-containing NMDA receptors signal to improve cell survival and GluN2B-containing receptors contribute to neuronal injury. This study compared neuronal injury in the hippocampal CA1 region to that in PCs and investigated the role of NMDA receptors in PC injury in our mouse model of cardiac arrest and cardiopulmonary resuscitation (CA/CPR). Analysis of cell density demonstrated a 24% loss of PCs within 24 h after 8 min CA/CPR and injury stabilized to 33% by 7 days. The subunit promiscuous NMDA receptor antagonist MK-801 protected both CA1 neurons and PCs from ischemic injury following CA/CPR, demonstrating a role for NMDA receptor activation in injury to both brain regions. In contrast, the GluN2B antagonist, Co 101244, had no effect on PC loss while protecting against injury in the CA1 region. These data indicate that ischemic injury to cerebellar PCs progresses via different cell death mechanisms compared to hippocampal CA1 neurons.
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PMID:Region-specific role for GluN2B-containing NMDA receptors in injury to Purkinje cells and CA1 neurons following global cerebral ischemia. 2545 Sep 57

Although glycogen is the only carbohydrate reserve of the brain, its overall contribution to brain functions remains unclear. It has been proposed that glycogen participates in the preservation of such functions during hypoxia. Several reports also describe a relationship between brain glycogen and susceptibility to epilepsy. To address these issues, we used our brain-specific Glycogen Synthase knockout (GYS1(Nestin-KO)) mouse to study the functional consequences of glycogen depletion in the brain under hypoxic conditions and susceptibility to epilepsy. GYS1(Nestin-KO) mice presented significantly different power spectra of hippocampal local field potentials (LFPs) than controls under hypoxic conditions. In addition, they showed greater excitability than controls for paired-pulse facilitation evoked at the hippocampal CA3-CA1 synapse during experimentally induced hypoxia, thereby suggesting a compensatory switch to presynaptic mechanisms. Furthermore, GYS1(Nestin-KO) mice showed greater susceptibility to hippocampal seizures and myoclonus following the administration of kainate and/or a brief train stimulation of Schaffer collaterals. We conclude that brain glycogen could play a protective role both in hypoxic situations and in the prevention of brain seizures.
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PMID:Role of brain glycogen in the response to hypoxia and in susceptibility to epilepsy. 2657 89

Since brain glycogen is stored mainly in astrocytes, the role of this polysaccharide in neurons has been largely overlooked. To study the existence and relevance of an active neuronal glycogen metabolism in vivo, we generated a mouse model lacking glycogen synthase specifically in the Camk2a-expressing postnatal forebrain pyramidal neurons (GYS1Camk2a-KO), which include the prefrontal cortex and the CA3 and CA1 cell layers of the hippocampus. The latter are involved in memory and learning processes and participate in the hippocampal CA3-CA1 synapse, the function of which can be analyzed electrophysiologically. Long-term potentiation evoked in the hippocampal CA3-CA1 synapse was decreased in alert behaving GYS1Camk2a-KO mice. They also showed a significant deficiency in the acquisition of an instrumental learning task - a type of associative learning involving prefrontal and hippocampal circuits. Interestingly, GYS1Camk2a-KO animals did not show the greater susceptibility to hippocampal seizures and myoclonus observed in animals completely depleted of glycogen in the whole CNS. These results unequivocally demonstrate the presence of an active glycogen metabolism in neurons in vivo and reveal a key role of neuronal glycogen in the proper acquisition of new motor and cognitive abilities, and in the changes in synaptic strength underlying such acquisition.
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PMID:Lack of Neuronal Glycogen Impairs Memory Formation and Learning-Dependent Synaptic Plasticity in Mice. 3145 67


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