INVESTIGADORES
BELFORTE Juan Emilio
artículos
Título:
Lack of kainic acid-induced gamma oscillations predicts subsequent CA1 excitotoxic cell death.
Autor/es:
JINDE S, BELFORTE JE, YAMAMOTO J, WILSON MA, TONEGAWA S, NAKAZAWA K.
Revista:
EUROPEAN JOURNAL OF NEUROSCIENCE
Editorial:
WILEY-BLACKWELL PUBLISHING, INC
Referencias:
Año: 2009 p. 1036 - 1055
ISSN:
0953-816X
Resumen:
Gamma oscillations are a prominent feature of hippocampal network activity, but their functional role remains debated, ranging from
mere epiphenomena to being crucial for information processing. Similarly, persistent gamma oscillations sometimes appear prior to
epileptic discharges in patients with mesial temporal sclerosis. However, the significance of this activity in hippocampal excitotoxicity
is unclear. We assessed the relationship between kainic acid (KA)-induced gamma oscillations and excitotoxicity in genetically
engineered mice in which N-methyl-d-aspartic acid receptor deletion was confined to CA3 pyramidal cells. Mutants showed reduced
CA3 pyramidal cell firing and augmented sharp waveripple activity, resulting in higher susceptibility to KA-induced seizures, and
leading to strikingly selective neurodegeneration in the CA1 subfield. Interestingly, the increase in KA-induced c-aminobutyric acid
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
CA3 pyramidal cell firing and augmented sharp waveripple activity, resulting in higher susceptibility to KA-induced seizures, and
leading to strikingly selective neurodegeneration in the CA1 subfield. Interestingly, the increase in KA-induced c-aminobutyric acid
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
N-methyl-d-aspartic acid receptor deletion was confined to CA3 pyramidal cells. Mutants showed reduced
CA3 pyramidal cell firing and augmented sharp waveripple activity, resulting in higher susceptibility to KA-induced seizures, and
leading to strikingly selective neurodegeneration in the CA1 subfield. Interestingly, the increase in KA-induced c-aminobutyric acid
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
c-aminobutyric acid
(GABA) levels, and the persistent 3050-Hz gamma oscillations, both of which were observed in control mice prior to the first seizure
discharge, were abolished in the mutants. Consequently, on subsequent days, mutants manifested prolonged epileptiform activity and
massive neurodegeneration of CA1 cells, including local GABAergic neurons. Remarkably, pretreatment with the potassium channel
blocker a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.
a-dendrotoxin increased GABA levels, restored gamma oscillations, and prevented CA1 degeneration in the mutants. These
results demonstrate that the emergence of low-frequency gamma oscillations predicts increased resistance to KA-induced
excitotoxicity, raising the possibility that gamma oscillations may have potential prognostic value in the treatment of epilepsy.