Your search keyword '"Vaarmann A"' showing total 7 results

1. Seizures, Ataxia, and Neuronal Loss in Cystatin B Heterozygous Mice

Author

Annika Vaarmann, Anu Aonurm, Alexander Zharkovsky, Malle Kuum, Allen Kaasik, and Anti Kalda

Subjects

Male, Heterozygote, medicine.medical_specialty, Cerebellum, Ataxia, Cell Count, Progressive myoclonus epilepsy, Biology, Handling, Psychological, Asymptomatic, Mice, Unverricht-Lundborg Syndrome, Seizures, Internal medicine, medicine, Animals, Cystatin B, Finland, Cerebral Cortex, Neurons, Behavior, Animal, Cell Death, Brain, medicine.disease, Cystatins, Mice, Mutant Strains, Unverricht–Lundborg disease, Disease Models, Animal, Phenotype, medicine.anatomical_structure, Endocrinology, Neurology, Cerebral cortex, Rotarod Performance Test, Mutation, Female, Neurology (clinical), Cystatin, medicine.symptom

Abstract

Unverricht-Lundborg disease (EPM1) has been considered to be an autosomal-recessive disease related with loss of function mutations in the gene encoding cystatin B. Although heterozygous carriers are generally asymptomatic, earlier studies in Finnish EPM1 families have reported minor symptoms together with slight changes in the EEG recordings also in near relatives of patients. Here we tested the hypothesis that EPM1 phenotype is expressed also in heterozygous subjects using 17-month-old cystatin B deficient mice as a model of disease. Western blot analysis demonstrated a 50% decrease in cystatin B expression in the cerebellum of these animals. Heterozygous mice showed significantly impaired rotarod performance and were weaker in the grid test. Also the total seizure-rating score of heterozygous animals was higher than in wild-type mice. The stereological analysis revealed a significant decrease in the number of neurons in cerebral cortex and the granule cell layer of cerebellum. These results suggest that partial decrease in cystatin B expression in heterozygous mice could lead to the development of mild EPM1 phenotype.

Published

2007

2. Altered Tryptophan Metabolism in the Brain of Cystatin B-Deficient Mice: A Model System for Progressive Myoclonus Epilepsy

Author

Alexander Zharkovsky, Allen Kaasik, and Annika Vaarmann

Subjects

Male, Serotonin, medicine.medical_specialty, Cerebellum, Ataxia, Myoclonic Jerk, Progressive myoclonus epilepsy, Biology, Synaptic Transmission, Mice, Epilepsy, chemistry.chemical_compound, Unverricht-Lundborg Syndrome, Internal medicine, medicine, Animals, Cystatin B, Chromatography, High Pressure Liquid, Kynurenine, Cerebral Cortex, Neurodegeneration, Tryptophan, Brain, Hydroxyindoleacetic Acid, medicine.disease, Cystatins, Disease Models, Animal, Phenotype, Endocrinology, medicine.anatomical_structure, Neurology, chemistry, Mutation, Female, Neurology (clinical), medicine.symptom

Abstract

Summary: Purpose: Progressive myoclonus epilepsy of the Unverricht–Lundborg type (EPM1) is a rare neurologic disorder, associated with mutations in the Cystatin B (Cstb) gene. Mice lacking Cstb, a cysteine protease inhibitor of the cathepsine family of proteases, provide a mammalian model for EPM1 by displaying similarly progressive ataxia, myoclonic seizures, and neurodegeneration. However, the linkage of Cstb deficit on the molecular level to pathologic features like myoclonic jerks or tonic–clonic seizures has remained unclear. We examined the tryptophan (TRP) metabolism, along the serotonin (5HT) and kynurenine (KYN) pathway in the brain of Cstb-deficient mice, in relation to their possible involvement in the seizure phenotype. Methods: TRP and its metabolites, along the 5HT and KYN pathways, were assayed in brain tissue by high-pressure liquid chromatography (HPLC) with electrochemical detection. The inverted wire grid and mild handling tests were used for evaluation of ataxia and myoclonic activity. Results: The Cstb-deficient mice had constitutively increased TRP, 5HT, and 5-hydroxyindole acetic acid (5HIAA) levels in the cerebral cortex and cerebellum and increased levels of KYN in the cerebellum. These neurochemical changes were accompanied with ataxia and an apparent myoclonic phenotype among the Cstb-deficient mice. Conclusions: Our findings suggest that secondary processes (i.e., overstimulation of serotoninergic transmission) on the cellular level, initiated by Cstb deficiency in specific brain regions, may be responsible for the myoclonic/seizure phenotype in EPM1.

Published

2006

3. Unverricht-Lundborg disease

Author

Crespel, Arielle, additional, Ferlazzo, Edoardo, additional, Franceschetti, Silvana, additional, Genton, Pierre, additional, Gouider, Riadh, additional, Kälviäinen, Reetta, additional, Korja, Miikka, additional, Lehtinen, Maria K., additional, Mervaala, Esa, additional, Simonato, Michele, additional, and Vaarmann, Annika, additional

Published

2016

4. Seizures, Ataxia, and Neuronal Loss in Cystatin B Heterozygous Mice

Author

Kaasik, Allen, primary, Kuum, Malle, additional, Aonurm, Anu, additional, Kalda, Anti, additional, Vaarmann, Annika, additional, and Zharkovsky, Alexander, additional

Published

2007

5. Altered Tryptophan Metabolism in the Brain of Cystatin B-Deficient Mice: A Model System for Progressive Myoclonus Epilepsy

Author

Vaarmann, Annika, primary, Kaasik, Allen, additional, and Zharkovsky, Alexander, additional

Published

2006

6. Reduced Serotonin and 3-Hydroxyanthranilic Acid Levels in Serum of Cystatin B-Deficient Mice, a Model System for Progressive Myoclonus Epilepsy

Author

Arbatova, Jelena, primary, D'Amato, Elena, additional, Vaarmann, Annika, additional, Zharkovsky, Alex, additional, and Reeben, Mati, additional

Published

2005

7. Apomorphine-Induced Aggressive Behaviour in para-Chlorophenylalanine-Treated Male Rats: Implications to Brain [3H]Ketanserin Binding and Monoamine Content

Author

MattoNote, Vallo, primary, Vaarmann, Annika, additional, and Allikmets, Lembit, additional

Published

2001