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2. Contributors

Author

Albrecht, D., primary, Angeleri, F., additional, Arcelli, P., additional, Asanuma, C., additional, Avanzini, G., additional, Bal, T., additional, Battaglia, G., additional, Belardinelli, N., additional, Bentivoglio, M., additional, Bertini, G., additional, Burman, K., additional, Campbell, G., additional, Casas-Puig, R., additional, Chen, S., additional, Colacitti, C., additional, Contreras, D., additional, Crunelli, V., additional, Ralston, D. Daly, additional, Darian-Smith, C., additional, Darian-Smith, I., additional, Davidowa, H., additional, De Biasi, S., additional, DeBoom, T., additional, De Curtis, M., additional, Dell'Anna, M.E., additional, Diamond, I.T., additional, Diamond, M.E., additional, Fenelon, G., additional, Fitzpatrick, D., additional, Françis, C., additional, Frassoni, C., additional, Frost, S.B., additional, Futami, T., additional, Galea, M., additional, Gambetti, P., additional, Giannetti, S., additional, Granato, A., additional, Hendry, S.H.C., additional, Humphrey, A.L., additional, Ilinsky, I.A., additional, Jones, E.G., additional, Kakei, S., additional, Killackey, H.P., additional, Kultas-Ilinsky, K., additional, Leggio, M.G., additional, Leresche, N., additional, Lieberman, A.R., additional, Lizier, C., additional, Lugaresi, E., additional, Luppino, G., additional, Macchi, G., additional, Mancia, M., additional, Marini, G., additional, Masterton, R.B., additional, Matelli, M., additional, McCormick, D.A., additional, Meder, J.F., additional, Minciacchi, D., additional, Molinari, M., additional, Montagna, P., additional, Nolfe, G., additional, Peng, Z.-C., additional, Percheron, G., additional, Persson, H., additional, Pucci, E., additional, Quattrini, A., additional, Ralston, H.J., additional, Rausell, E., additional, Regondi, M.C., additional, Reinoso-Suarez, F., additional, Ringstedt, T., additional, Rustioni, A., additional, Salt, T.E., additional, Santarelli, M., additional, Saul, A.B., additional, Sbriccoli, A., additional, Sherman, S.M., additional, Shinoda, Y., additional, Signorino, M., additional, Soltesz, I., additional, Spreafico, R., additional, Steriade, M., additional, Sugiuchi, Y., additional, Talbi, B., additional, Tippayatorn, N., additional, Toga, A.W., additional, Toth, T.I., additional, Turner, J., additional, Usrey, W.M., additional, Vaudano, E., additional, Velayos, J.L., additional, von Krosigk, M., additional, Wannier, T., additional, Yelnik, J., additional, and Zippel, U., additional

Published
1993
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4. Neuronal migration disorders (NMDs) in animal models and humans

Author

Spreafico, R, Battaglia, G, Franceschetti, S, Frassoni, C, Colacitti, C, Avoli, M, Avanzini, G., SANCINI, GIULIO ALFREDO, Spreafico, R, Battaglia, G, Franceschetti, S, Frassoni, C, Colacitti, C, Sancini, G, Avoli, M, and Avanzini, G

Subjects
neurons, cortex, BIO/09 - FISIOLOGIA
Abstract

The cerebral cortex gains its final configuration after complex mechanisms that take place during fetal life. Any derangement of this fine tuning, particularly in the early stages of cortical development, can determine structural alterations of the cortical mantle. Recent improvements of neuroradiological techniques have made it possible to diagnose in vivo human dysplastic lesions frequently associated with neurological deficits and epilepsy. In the first section of this review some aspects of normal cortical development are briefly outlined. In the second a survey of animal models presenting with cerebral malformations is given with particular reference to rats in which cortical abnormalities, induced by an alkylating agent, appear similar to those observed in humans. In the third part recent electroclinical, neuroradiological and neuropathological findings on epileptic patients presenting with neocortical structural alteration are reported

Published
1997

5. Prenatal methylazoxymethanol treatment in rats produces brain abnormalities with morphological similarities to human developmental brain dysgeneses

Author

Colacitti, C, Sancini, G, Debiasi, S, Franceschetti, S, Caputi, A, Frassoni, C, Cattabeni, F, Avanzini, G, Spreafico, R, Di Luca, M, DeBiasi, S, Di Luca, M., SANCINI, GIULIO ALFREDO, Colacitti, C, Sancini, G, Debiasi, S, Franceschetti, S, Caputi, A, Frassoni, C, Cattabeni, F, Avanzini, G, Spreafico, R, Di Luca, M, DeBiasi, S, Di Luca, M., and SANCINI, GIULIO ALFREDO

Abstract

A double methylazoxymethanol (MAM) intraperitoneal injection was prenatally administered to pregnant rats at gestational day 15 to induce developmental brain dysgeneses. Thirty adult rats from 8 different progenies were investigated with a combined electrophysiological and neuroanatomical analysis. The offspring of treated dams was characterized by extensive cortical layering abnormalities, subpial bands of heterotopic neurons in layer I, and subcortical nodules of heterotopic neurons extending from the periventricular region to the hippocampus and neocortex. The phenotype of cell subpopulations within the heterotopic structures was analyzed by means of antibodies raised against glial and neuronal markers, calcium binding proteins, GABA, and AMPA glutamate receptors. Neurons within the subcortical heterotopic nodules were characterized by abnormal firing properties, with sustained repetitive bursts of action potentials. The subcortical nodules were surrounded by cell clusters with ultrastructural features of young migrating neurons. The immunocytochemical data suggested, moreover, that the subcortical heterotopia were formed by neurons originally committed to the neocortex and characterized by morphological features similar to those found in human periventricular nodular heterotopia. The present study demonstrates that double MAM treatment at gestational day 15 induces in rats developmental brain abnormalities whose anatomical and physiological features bear resemblance to those observed in human brain dysgeneses associated with intractable epilepsy. Therefore, MAM treated rats could be considered as useful tools in investigating the pathogenic mechanisms involved in human developmental brain dysgeneses.

Published
1999

7. The methylazoxymethanol (MAM) treated rat as an animal model for the neuronal migration disorders: electrophysiological findings in identified pyramidal neurones

Author

Franceschetti, S, Sancini, G, Colacitti, C, Di Luca, M, Lavazza, T, Panzica, F, Spreafico, R, Battaglia, G, Avanzini, G, Andermann, F, SANCINI, GIULIO ALFREDO, Franceschetti, S, Sancini, G, Colacitti, C, Di Luca, M, Lavazza, T, Panzica, F, Spreafico, R, Battaglia, G, Avanzini, G, Andermann, F, and SANCINI, GIULIO ALFREDO

Published
1999

8. Dysplastic neocortex and subcortical heterotopias in methylazoxymethanol-treated rats: an intracellular study of identified pyramidal neurones

Author

Sancini, G, Franceschetti, S, Battaglia, G, Colacitti, C, Di Luca, M, Spreafico, R, Avanzini, G, Sancini, GA, Sancini, G, Franceschetti, S, Battaglia, G, Colacitti, C, Di Luca, M, Spreafico, R, Avanzini, G, and Sancini, GA

Abstract

Intracellular recordings were obtained using biocytin-filled electrodes from 78 neurones located in both dysplastic neocortex and subcortical heterotopic aggregates in a model of neuronal migration disorder induced in rats by means of a double methylazoxymethanol injection given on embryonic day 15. Both regular spiking and intrinsically bursting pyramidal neurones were found in all of the examined structures and were synaptically activated by subcortical stimulation. In a neuronal subpopulation (22%) located in the neocortex as well as in the subcortical heterotopic aggregates, the injection of depolarising current pulses elicited aberrant firing patterns, consisting of repetitive bursts of APs that gradually increased in duration and eventually merged in a long-lasting discharge. The gradual development of this 'excessive' bursting behaviour suggests a progressive run-down of the slow components of the hyperpolarising afterpotential

Published
1998

9. Altered connections between neocortical and heterotopic areas in methylazoxymethanol-treated rat

Author

Colacitti, C, Sancini, G, Franceschetti, S, Cattabeni, F, Avanzini, G, Spreafico, R, Di Luca, M, Battaglia, G, Battaglia, G., SANCINI, GIULIO ALFREDO, Colacitti, C, Sancini, G, Franceschetti, S, Cattabeni, F, Avanzini, G, Spreafico, R, Di Luca, M, Battaglia, G, Battaglia, G., and SANCINI, GIULIO ALFREDO

Abstract

We are currently investigating various treatments which could determine, in the rat brain, structural abnormalities mimicking those reported in human brain dysgeneses. We can induce the formation of neuronal heterotopia in the progeny of rats by means of a double injection of the cytotoxic agent methylazoxymethanol acetate (MAM) on embryonic day 15. We have now investigated the anatomical connections of these heterotopia by means of anterograde and retrograde tract tracing techniques. The induced heterotopia along the border of the lateral ventricles shared common anatomical features with the periventricular nodules in human periventricular or subcortical nodular heterotopia (PNH). The tract tracing data demonstrated the existence of reciprocal connections between the neuronal heterotopia and the ipsilateral and contralateral cortical areas, and the presence of abnormal cortico-hippocampal and cortico-cortical connections. On the basis of the connectivity patterns, it may be speculated that some cells in the heterotopia could be neurons originally committed to the cortex, that were interrupted in their migration by the MAM treatment. Given the common morphological features seen in human PNH and MAM-induced brain heterotopia, the anatomical and developmental analysis of MAM-treated rats may shed light on the mechanisms by which human brain dysgeneses develop in human patients.

Published
1998

13. Prenatal Methylazoxymethanol Treatment in Rats Produces Brain Abnormalities with Morphological Similarities to Human Developmental Brain Dysgeneses

Author

Carolina Frassoni, Giuliano Avanzini, Giulio Sancini, Antonio Caputi, Giorgio Battaglia, Silvia DeBiasi, Roberto Spreafico, Flaminio Cattabeni, Claudia Colacitti, Monica Di Luca, Silvana Franceschetti, Colacitti, C, Sancini, G, Debiasi, S, Franceschetti, S, Caputi, A, Frassoni, C, Cattabeni, F, Avanzini, G, Spreafico, R, and Di Luca, M

Subjects
Pathology, medicine.medical_specialty, Methylazoxymethanol Acetate, Neurotoxins, Hippocampus, AMPA receptor, Choristoma, Biology, gamma-Aminobutyric acid, Cerebral Ventricles, Pathology and Forensic Medicine, Rats, Sprague-Dawley, Embryonic and Fetal Development, Cellular and Molecular Neuroscience, Hippocampu, Pregnancy, BIO/09 - FISIOLOGIA, medicine, Animals, Humans, Neurons, Neocortex, Animal, Glutamate receptor, Abnormalities, Drug-Induced, Brain, General Medicine, Human brain, Neuron, Periventricular Region, Cortical dysplasia, medicine.disease, Immunohistochemistry, Rats, Microscopy, Electron, medicine.anatomical_structure, nervous system, Neurology, Rat, Female, Neurology (clinical), Neurotoxin, Neuroscience, Cerebral Ventricle, Injections, Intraperitoneal, Human, medicine.drug
Abstract

A double methylazoxymethanol (MAM) intraperitoneal injection was prenatally administered to pregnant rats at gestational day 15 to induce developmental brain dysgeneses. Thirty adult rats from 8 different progenies were investigated with a combined electrophysiological and neuroanatomical analysis. The offspring of treated dams was characterized by extensive cortical layering abnormalities, subpial bands of heterotopic neurons in layer I, and subcortical nodules of heterotopic neurons extending from the periventricular region to the hippocampus and neocortex. The phenotype of cell subpopulations within the heterotopic structures was analyzed by means of antibodies raised against glial and neuronal markers, calcium binding proteins, GABA, and AMPA glutamate receptors. Neurons within the subcortical heterotopic nodules were characterized by abnormal firing properties, with sustained repetitive bursts of action potentials. The subcortical nodules were surrounded by cell clusters with ultrastructural features of young migrating neurons. The immunocytochemical data suggested, moreover, that the subcortical heterotopia were formed by neurons originally committed to the neocortex and characterized by morphological features similar to those found in human periventricular nodular heterotopia. The present study demonstrates that double MAM treatment at gestational day 15 induces in rats developmental brain abnormalities whose anatomical and physiological features bear resemblance to those observed in human brain dysgeneses associated with intractable epilepsy. Therefore, MAM treated rats could be considered as useful tools in investigating the pathogenic mechanisms involved in human developmental brain dysgeneses.

Published
1999
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15. Altered connections between neocortical and heterotopic areas in methylazoxymethanol-treated rat

Author

Giorgio Battaglia, Giuliano Avanzini, Claudia Colacitti, Silvana Franceschetti, Giulio Sancini, Roberto Spreafico, Monica Di Luca, Flaminio Cattabeni, Colacitti, C, Sancini, G, Franceschetti, S, Cattabeni, F, Avanzini, G, Spreafico, R, Di Luca, M, and Battaglia, G

Subjects
Methylazoxymethanol Acetate, Cerebral migrational and organizational disorder, Gestational Age, Neocortex, Choristoma, Biology, Axonal Transport, Neuronal migration, Functional Laterality, Rats, Sprague-Dawley, Central nervous system disease, chemistry.chemical_compound, Epilepsy, Lateral ventricles, Pregnancy, BIO/09 - FISIOLOGIA, medicine, Animals, Humans, Neurons, Brain dysgenesi, Brain Diseases, Methylazoxymethanol acetate, Brain, Human brain, medicine.disease, Brain development, Rats, Periventricular nodular heterotopia, Disease Models, Animal, Teratogens, medicine.anatomical_structure, Heterotopia (medicine), Neurology, chemistry, MAM, Prenatal Exposure Delayed Effects, Immunohistochemistry, Female, Neurology (clinical), Neuron, Neuroscience
Abstract

We are currently investigating various treatments which could determine, in the rat brain, structural abnormalities mimicking those reported in human brain dysgeneses. We can induce the formation of neuronal heterotopia in the progeny of rats by means of a double injection of the cytotoxic agent methylazoxymethanol acetate (MAM) on embryonic day 15. We have now investigated the anatomical connections of these heterotopia by means of anterograde and retrograde tract tracing techniques. The induced heterotopia along the border of the lateral ventricles shared common anatomical features with the periventricular nodules in human periventricular or subcortical nodular heterotopia (PNH). The tract tracing data demonstrated the existence of reciprocal connections between the neuronal heterotopia and the ipsilateral and contralateral cortical areas, and the presence of abnormal cortico-hippocampal and cortico-cortical connections. On the basis of the connectivity patterns, it may be speculated that some cells in the heterotopia could be neurons originally committed to the cortex, that were interrupted in their migration by the MAM treatment. Given the common morphological features seen in human PNH and MAM-induced brain heterotopia, the anatomical and developmental analysis of MAM-treated rats may shed light on the mechanisms by which human brain dysgeneses develop in human patients.

Published
1998

16. Dysplastic neocortex and subcortical heterotopias in methylazoxymethanol-treated rats: an intracellular study of identified pyramidal neurones

Author

Claudia Colacitti, Giuliano Avanzini, Giorgio Battaglia, Giulio Sancini, Monica Di Luca, Silvana Franceschetti, Roberto Spreafico, Sancini, G, Franceschetti, S, Battaglia, G, Colacitti, C, Di Luca, M, Spreafico, R, and Avanzini, G

Subjects
Intracellular Fluid, Time Factors, Methylazoxymethanol Acetate, Neocortex, Epileptogenesis, Hippocampus, Synaptic Transmission, Cerebral Ventricles, Membrane Potentials, Pregnancy, Cell Movement, BIO/09 - FISIOLOGIA, Evoked Potentials, Maternal-Fetal Exchange, Neurons, General Neuroscience, Pyramidal Cells, medicine.anatomical_structure, Cerebral cortex, Maternal Exposure, Microelectrode, Female, Evoked Potential, Injections, Intraperitoneal, Time Factor, Central nervous system, Biology, Choristoma, Membrane Potential, Drug Administration Schedule, Bursting, Hippocampu, Culture Techniques, medicine, Animals, Animal, Culture Technique, Cortical dysplasia, Neuron, medicine.disease, Embryo, Mammalian, Electric Stimulation, Rats, Electrophysiology, Neuronal migration disorder, nervous system, Rat, Pyramidal Cell, Neuroscience, Microelectrodes, Cerebral Ventricle
Abstract

Intracellular recordings were obtained using biocytin-filled electrodes from 78 neurones located in both dysplastic neocortex and subcortical heterotopic aggregates in a model of neuronal migration disorder induced in rats by means of a double methylazoxymethanol injection given on embryonic day 15. Both regular spiking and intrinsically bursting pyramidal neurones were found in all of the examined structures and were synaptically activated by subcortical stimulation. In a neuronal subpopulation (22%) located in the neocortex as well as in the subcortical heterotopic aggregates, the injection of depolarising current pulses elicited aberrant firing patterns, consisting of repetitive bursts of APs that gradually increased in duration and eventually merged in a long-lasting discharge. The gradual development of this `excessive' bursting behaviour suggests a progressive run-down of the slow components of the hyperpolarising afterpotential.

Published
1998

17. Prenatal methylazoxymethanol treatment in rats produces brain abnormalities with morphological similarities to human developmental brain dysgeneses.

Author

Colacitti C, Sancini G, DeBiasi S, Franceschetti S, Caputi A, Frassoni C, Cattabeni F, Avanzini G, Spreafico R, Di Luca M, and Battaglia G

Subjects
Animals, Brain pathology, Cerebral Ventricles, Choristoma, Embryonic and Fetal Development physiology, Female, Hippocampus, Humans, Immunohistochemistry, Injections, Intraperitoneal, Methylazoxymethanol Acetate toxicity, Microscopy, Electron, Neurons pathology, Pregnancy, Rats, Rats, Sprague-Dawley, Abnormalities, Drug-Induced, Brain abnormalities, Methylazoxymethanol Acetate analogs & derivatives, Neurotoxins toxicity
Abstract

A double methylazoxymethanol (MAM) intraperitoneal injection was prenatally administered to pregnant rats at gestational day 15 to induce developmental brain dysgeneses. Thirty adult rats from 8 different progenies were investigated with a combined electrophysiological and neuroanatomical analysis. The offspring of treated dams was characterized by extensive cortical layering abnormalities, subpial bands of heterotopic neurons in layer I, and subcortical nodules of heterotopic neurons extending from the periventricular region to the hippocampus and neocortex. The phenotype of cell subpopulations within the heterotopic structures was analyzed by means of antibodies raised against glial and neuronal markers, calcium binding proteins, GABA, and AMPA glutamate receptors. Neurons within the subcortical heterotopic nodules were characterized by abnormal firing properties, with sustained repetitive bursts of action potentials. The subcortical nodules were surrounded by cell clusters with ultrastructural features of young migrating neurons. The immunocytochemical data suggested, moreover, that the subcortical heterotopia were formed by neurons originally committed to the neocortex and characterized by morphological features similar to those found in human periventricular nodular heterotopia. The present study demonstrates that double MAM treatment at gestational day 15 induces in rats developmental brain abnormalities whose anatomical and physiological features bear resemblance to those observed in human brain dysgeneses associated with intractable epilepsy. Therefore, MAM treated rats could be considered as useful tools in investigating the pathogenic mechanisms involved in human developmental brain dysgeneses.

Published
1999
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18. A reticuloreticular commissural pathway in the rat thalamus.

Author

Battaglia G, Lizier C, Colacitti C, Princivalle A, and Spreafico R

Subjects
Animals, Male, Neural Pathways physiology, Rats, Brain Mapping methods, Functional Laterality physiology, Rats, Sprague-Dawley physiology, Thalamic Nuclei physiology
Abstract

To further characterize the communication between the thalami of the two hemispheres, a connection linking the rostral reticular nuclei of the two thalamic sides was investigated in the rat by retrograde and anterograde tracing. The rostral reticular nucleus can be divided into a medial region, with densely packed fusiform neurons, and a lateral region, with less densely packed, polymorphic neurons. After injections of Fluorogold (FG) in the medial region, retrogradely labeled, small fusiform neurons were found in the corresponding contralateral region. The retrograde labeling data were confirmed by the anterograde-tracing experiments. Thin, beaded axons, anterogradely labeled after injection of biocytin or biotinylated dextranamine in the medial region, innervate the corresponding region in the contralateral reticular nucleus. The present data suggest the existence of a commissural pathway specifically devoted to the crosstalk between the rostral reticular nuclei of the two thalamic sides. The commissural gamma aminobutyric acid (GABA)-ergic input on the GABAergic neurons of the rostral reticular nucleus could modulate the generation of sleep spindles. The reticuloreticular pathway may, moreover, synchronize the diffuse modulatory effect of the rostral reticular nucleus on nonprimary cortical areas through the bilateral projections of the nucleus to the ventromedial, intralaminar, and anterior thalamic nuclei.

Published
1994
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