Antoinette-Bernabe Gelot, Tangra Ondina Draia-Nicolau, Rémi Mathieu, Lucas Silvagnoli, Françoise Watrin, Carlos Cardoso, Jean-Bernard Manent, Antoine de Chevigny, Alfonso Represa
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引用次数: 0
Abstract
Objective: Mutations in genes of the mTOR pathway have been identified as a major cause of hemimegalencephaly (HMG), focal cortical dysplasia type II, and tuberous sclerosis, cortical malformations associated with epilepsy. These conditions are characterized at the cellular level by increased size of pyramidal neurons that grow with dysmorphic features and in some cases by the presence of giant balloon cells. Our previous research in tuberous sclerosis has shown that parvalbumin (Pvalb) and calbindin immunoreactive cells in cortical and subcortical tuberal lesions show cytomegalic features, suggesting the involvement of GABAergic cells in mTOR-related pathologies. In the present report, we propose to deepen our understanding of the role of interneurons in mTOR-related cortical malformations by analyzing the maturation of Pvalb neurons in fetal samples of HMG.
Methods: We performed immunohistochemical staining of cortical samples from individuals with HMG from 21 gestational weeks to 10 postnatal months. The study focused on Pvalb cells, and pS6 counterstaining was performed to assess the activation of the mTOR pathway. To investigate the pathomechanisms behind the cytomegalic features, we examined mTOR pathway gene expression in Pvalb interneurons and cortical projection neurons using a single-cell transcriptomic atlas of the human neocortex.
Results: Our results revealed cytomegalic features in Pvalb interneurons, indicating abnormal development in HMG patients compared to controls. This phenotype progressively worsened over time, suggesting ongoing developmental abnormalities associated with mTOR dysregulation, which may underlie the pathology of cortical malformations in HMG. Our transcriptomic data revealed similar expression patterns of mTOR and its upstream regulators in both Pvalb and glutamatergic neurons during development, suggesting that mTOR pathway disorders may induce similar phenotypes in both cell types.
Significance: The present data suggest that Pvalb interneurons are involved in the development of mTOR-related cortical dysplasia and that they may be a contributor to the clinical phenotype of these patients.
期刊介绍:
Epilepsia is the leading, authoritative source for innovative clinical and basic science research for all aspects of epilepsy and seizures. In addition, Epilepsia publishes critical reviews, opinion pieces, and guidelines that foster understanding and aim to improve the diagnosis and treatment of people with seizures and epilepsy.
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