Federica Trombin scite author profile

We conclude that in an acute model of temporal lobe ictogenesis, sustained inhibition without firing of EC principal neurons correlates with the onset of a focal seizure. The progression of the ictal discharge is contributed by a potassium-dependent change in reversal potential of inhibitory postsynaptic potentials. These findings demonstrate a prominent role of inhibitory networks during the transition to seizure in the EC.

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Changes in action potential features during focal seizure discharges in the entorhinal cortex of the in vitro isolated guinea pig brain

Trombin

Gnatkovsky

Curtis

2011

Journal of Neurophysiology

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Temporal lobe seizures in humans correlate with stereotyped electrophysiological patterns that can be reproduced in animal models to study the cellular and network changes responsible for ictogenesis. Seizure-like discharges that mimic seizure patterns in humans were induced in the entorhinal cortex of the in vitro isolated guinea pig brain by 3-min arterial applications of the GABA(A) receptor antagonist bicuculline. The onset of seizure is characterized by a paradoxical interruption of firing for several seconds in principal neurons coupled with both enhanced interneuronal firing and increased extracellular potassium (Gnatkovsky et al. 2008). The evolution of action potential features from firing break to excessive and synchronous activity associated with the progression of seizure itself is analyzed here. We utilized phase plot analysis to characterize action potential features of entorhinal cortex neurons in different phases of a seizure. Compared with preictal action potentials, resumed spikes in layer II-III neurons (n = 17) during the early phase of the seizure-like discharge displayed 1) depolarized threshold, 2) lower peak amplitude, 3) depolarized voltage of repolarization and 4) decelerated depolarizing phase, and 5) spike doublettes. Action potentials in deep-layer principal cells (n = 8) during seizure did not show the marked feature changes observed in superficial layer neurons. Action potential reappearance correlated with an increase in extracellular potassium. High-threshold, slow-action potentials similar to those observed in the irregular firing phase of a seizure were reproduced in layer II-III neurons by direct cortical application of a highly concentrated potassium solution (12-24 mM). We propose that the generation of possibly nonsomatic action potentials by increased extracellular potassium represents a crucial step toward reestablish firing after an initial depression in an acute model of temporal lobe seizures. Resumed firing reengages principal neurons into seizure discharge and promotes the transition toward the synchronized burst firing that characterizes the late phase of a seizure.

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Antioxidants partially restore glutamate transport defect in leber hereditary optic neuropathy cybrids

Sala

Trombin

Beretta

et al. 2008

J of Neuroscience Research

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Leber hereditary optic neuropathy (LHON) is a mitochondrial disease characterized by visual loss resulting from retinal ganglion cell degeneration. Despite the important role of respiratory chain deficiency and oxidative stress induced by mtDNA point mutations affecting complex I, excitotoxic injury has been postulated as a concurrent pathogenic factor. We used transmitochondrial cybrid cell lines constructed using enucleated fibroblasts from three LHON probands carrying the most severe 3460/ND1 mutation and three controls as mitochondria donors, and the osteosarcoma-derived mtDNA-less cells, to study the possible efficacy of two selected antioxidant compounds in preventing glutamate uptake reduction previously observed in LHON cybrids. We demonstrated that two antioxidants, Trolox and decylubiquinone, partially restore glutamate transport impairment occurring in LHON cybrids. Rotenone, a classic complex I inhibitor, did not worsen the glutamate uptake defect present in LHON cybrids under basal conditions but significantly reduced glutamate transport in control cybrids. Furthermore, we observed that LHON cybrids showed an increased protein carbonylation under basal conditions, not further affected by rotenone and partially counteracted by antioxidants. Our findings strengthen the hypothesis that the complex I defect associated with LHON causes free radical overproduction, which is responsible for glutamate transport inhibition. We suggest that selected antioxidants may be clinically tested in LHON patients and relatives to restore glutamate uptake defect caused by LHON-associated free radical overproduction.

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Seizure‐like discharges induced by 4‐aminopyridine in the olfactory system of the in vitro isolated guinea pig brain

et al. 2013

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SUMMARYPurpose: The study of the interactions leading to network-or region-specific propagation of seizures is crucial to understand ictogenesis. We have recently found that systemic (arterial) application of the potassium channel blocker, 4-aminopyridine (4AP), induces different and independent seizure activities in olfactory and in limbic structures. Here, we have characterized the network and cellular features that support 4AP-induced seizure-like events in the olfactory cortex. Methods: Simultaneous extracellular recordings were performed from the piriform cortex, the entorhinal cortex, the olfactory tubercle, and the amygdala of the in vitro isolated guinea pig brain preparation. Intracellular, sharp electrode recordings were obtained from neurons of different layers of the region of ictal onset, the piriform cortex. Seizure-like discharges were induced by both arterial perfusion and local intracortical injections of 4AP. Key Findings: Arterial application of 4AP induces independent seizure activities in limbic and olfactory cortices. Both local applications of 4AP and cortico-cortical disconnections demonstrated that region-specific seizure-like events initiated in the primary olfactory cortex and propagate to anatomically related areas. Seizures induced by arterial administration of 4-AP are preceded by runs of fast activity at circa 30-40 Hz and are independently generated in the hemispheres. Simultaneous extracellular and intracellular recordings in the piriform cortex revealed that the onset of seizure correlates with (1) a gradual amplitude increase of fast activity runs, (2) a large intracellular depolarization with action potential firing of superficial layer neurons, and (3) no firing in a subpopulation of deep layers neurons. During the ictal event, neuronal firing was abolished for 10-30 s in all neurons and gradually restored and synchronized before seizure termination. Significance: Our data show that olfactory neuronal networks sustain the generation of seizure-like activities that are independent from those observed in adjacent and connected limbic cortex regions. The data support the concept that functionally and anatomically hard-wired networks generate region-specific seizure patterns that could be substrates for system epilepsy.

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Lack of Evidence for Oxidative Stress in Sporadic Amyotrophic Lateral Sclerosis Fibroblasts

et al. 2008

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Background: It is conceivable that an early therapeutic intervention in amyotrophic lateral sclerosis (ALS) would lead to better results in terms of disease progression for these patients. One possible strategy to increase the sensitivity of the diagnosis is represented by the use of biological parameters reflecting, for example, oxidative stress alterations associated with ALS. Such biomarkers would be valuable tools both for a better diagnostic evaluation and for studying the impact of therapeutic interventions on the disease course. A special category of experimental models is represented by peripheral cells obtained directly from patients (ex vivo). Objective: In this study, primary fibroblasts obtained from 10 sporadic ALS (SALS) patients and 10 healthy matched controls were used to investigate a panel of parameters related to the oxidative status. Methods: Reactive oxygen species production, protein carbonylation and nitration, susceptibility to hydrogen peroxide exposure, p38-mitogen-activated protein kinase activation and adenosine triphosphate intracellular content were evaluated. Results: No significant difference was observed in all investigated parameters between patient and control cells, and no correlation with the disease severity was found. Conclusion: Collectively, our data show no major alterations of the oxidative and bioenergetic status in SALS cultured fibroblasts, suggesting that these cells do not represent a useful model to study the oxidative dysfunction associated with SALS.

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