Olga Bollag scite author profile

Summary: Purpose: Mongolian gerbils (Meriones unguiculatus) seize in response to sensory stimulation and forced exploratory behavior, but the incidence and severity of their seizures are variable. We wished to characterize the seizure pattern of gerbils from our breeding colony.Methods: Ninety-three gerbils aged 1-16 months were tested for a mean of 24 consecutive .weeks and assigned to a category according to their seizure pattern. Frequency distribution histograms of the mean scores assigned every 5 weeks were plotted for each category. Mean age, number of seizures, onset of the first facial and forelimb myoclonus, and of the first generalized tonic-clonic seizure (GTCS) were compared among categories. We performed correlation analysis between onset of seizures and animal age.Results: From the 93 tested, no seizure-resistant gerbils could be isolated. Four major categories were distinguished. Category 1, highly seizure-sensitive gerbils (39%), exhibited seizures from the first few weeks of test on. Category 2, consisting of -37%, were seizure-free for the first three to six consecutive tests, later developing facial and forelimb myoclonus and eventually GTCS. Because such progressive development of seizures was similar to that occurring upon electrical kindling, the gerbils were classified as kindled-like (KL). Among KL gerbils, older individuals were significantly more refractory to seizures. In category 3, gerbils (10%) exhibited inconsistent seizure behavior. Category 4 consisted of significantly younger animals (1 1%) with rapid progress to generalized seizures.Conclusions: Seizures of progressive severity can be induced in adult gerbils with a prolonged test regimen. As a consequence, the number of regularly seizing gerbils in a colony can be increased. Prolonged tests starting at a defined age may help characterize seizure development better in this genetic model of limbic epilepsy.

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Loss of perikaryal parvalbumin immunoreactivity from surviving GABAergic neurons in the CA1 field of epileptic gerbils

Scotti

Bollag

Kalt

et al. 1997

Hippocampus

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The Mongolian gerbil (Meriones unguiculatus) is known as a genetic model of epilepsy. Seizure behavior ranges from subtle events like arrest of motor activity and facial spasms to grand mal seizures followed by automatisms. Exploratory behavior in a stressful situation represents the most effective environment for provoking seizures in gerbils. Modifications of the inhibitory hippocampal circuits have been suggested as a cause of seizure susceptibility in the gerbil. This study presents a quantitative analysis of the hippocampal parvalbumin (PV)-immunoreactive and gamma-aminobutyric acid (GABA)-immunoreactive neurons in gerbils whose seizure sensitivity had been scored. PV is a cytosolic calcium-binding protein synthesized by a subpopulation of GABAergic neurons and thought to be responsible for the fast spiking capability of this subset of neurons. We show that the number of PV-immunoreactive neurons in the CA1 field of the gerbil hippocampus decreases in repeatedly seizing animals as compared to non-seizing controls. The lowest density of PV-immunoreactive neurons was observed 1 hour after the last generalized seizure. No changes in the density of GABA-immunoreactive neurons in field CA1 paralleled the obvious loss of perikaryal PV-immunoreactivity. The CA1 field represents the final output region to extrahippocampal brain areas, and its recruitment or not into seizure activity is crucial for the spreading of hippocampal discharges to the adjacent neocortex. A reduction of such a calcium-buffering system in the soma and dendrites may affect the spike characteristics of PV-containing GABAergic neurons and may alter their response to glutamatergic transmission. A reduced inhibitory control of pyramidal cells may ensue, facilitating neuronal excitability as a result.

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Olga Bollag

Parvalbumin disappears from GABAergic CA1 neurons of the gerbil hippocampus with seizure onset while its presence persists in the perforant path

Loss of perikaryal parvalbumin immunoreactivity from surviving GABAergic neurons in the CA1 field of epileptic gerbils

Seizure Patterns of Mongolian Gerbils Subjected to a Prolonged Weekly Test Schedule: Evidence for a Kindling‐Like Phenomenon in the Adult Population

Loss of perikaryal parvalbumin immunoreactivity from surviving GABAergic neurons in the CA1 field of epileptic gerbils

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