Altered excitatory and inhibitory neocortical circuitry leads to increased convulsive severity after pentylenetetrazol injection in an animal model of schizencephaly, but not of microgyria

Objective Malformations of the polymicrogyria spectrum can be mimicked in rodents through neonatal transcranial focal cortical freeze lesions. The animals presenting the malformations present both altered synaptic events and epileptiform activity in the vicinity of the microgyrus, but the comprehens...

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Veröffentlicht in:Epilepsia open 2022-09, Vol.7 (3), p.462-473
Hauptverfasser: Santos Heringer, Luiza, Rios Carvalho, Julia, Teixeira Oliveira, Julia, Texeira Silva, Bruna, Souza Aguiar dos Santos, Domethila Mariano, Martinez Martinez Toledo, Anna Lecticia, Borges Savoldi, Laura Maria, Magalhães Portela, Debora, Adriani Marques, Suelen, Campello Costa Lopes, Paula, Blanco Martinez, Ana Maria, Rocha Mendonça, Henrique
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Sprache:eng
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Zusammenfassung:Objective Malformations of the polymicrogyria spectrum can be mimicked in rodents through neonatal transcranial focal cortical freeze lesions. The animals presenting the malformations present both altered synaptic events and epileptiform activity in the vicinity of the microgyrus, but the comprehension of their contribution to increased predisposition or severity of seizures require further studies. Methods In order to investigate these issues, we induced both microgyria and schizencephaly in 57 mice and evaluated: their convulsive susceptibility and severity after pentyleneterazol (PTZ) treatment, the quantification of their symmetric and asymmetric synapses, the morphology of their dendritic arbors, and the content of modulators of synaptogenesis, such as SPARC, gephyrin and GAP‐43 within the adjacent visual cortex. Results Our results have shown that only schizencephalic animals present increased convulsive severity. Nevertheless, both microgyric and schizencephalic cortices present increased synapse number and dendritic complexity of layer IV and layer V‐located neurons. Specifically, the microgyric cortex presented reduced inhibitory synapses, while the schizencephalic cortex presented increased excitatory synapses. This altered synapse number is correlated with decreased content of both the anti‐synaptogenic factor SPARC and the inhibitory postsynaptic organizer gephyrin in both malformed groups. Besides, GAP‐43 content and dendritic spines number are enhanced exclusively in schizencephalic cortices. Significance In conclusion, our study supports the hypothesis that the sum of synaptic alterations drives to convulsive aggravation in animals with schizencephaly, but not microgyria after PTZ treatment. These findings reveal that different malformations of cortical development should trigger epilepsy via different mechanisms, requiring further studies for development of specific therapeutic interventions.
ISSN:2470-9239
2470-9239
DOI:10.1002/epi4.12625