Valproate treatment induces age‐ and sex‐dependent neuronal activity changes according to a patch clamp study

Author:

Májer Tímea1,Bódi Veronika1,Kelemen Viktor1,Szűcs Attila12,Varró Petra1,Világi Ildikó1ORCID

Affiliation:

1. Department of Physiology and Neurobiology, Institute of Biology Eötvös Loránd University Budapest Hungary

2. Hungarian Center of Excellence for Molecular Medicine Szeged Hungary

Abstract

AbstractAutism spectrum disorder is a heterogeneous neurodevelopmental disorder characterized by impaired social interactions, restricted, and stereotyped behaviors. The valproic acid model is one of the most recognized and broadly used models in rats to induce core symptoms of this disorder. Comorbidity of epilepsy and autism occurs frequently, due to similar background mechanisms that include the imbalance of excitation and inhibition. In this series of experiments, treatment was performed on rat dams with a single 500 mg/kg dose i.p. valproate injection on embryonic day 12.5. Intracellular whole‐cell patch clamp recordings were performed on brain slices prepared from adolescent and adult offspring of both sexes on pyramidal neurons of the medial prefrontal cortex and entorhinal cortex. Current clamp stimulation utilizing conventional current step protocols and dynamic clamp stimulation were applied to assess neuronal excitability. Membrane properties and spiking characteristics of layer II–III pyramidal cells were analyzed in both cortical regions. Significant sex‐dependent and age‐dependent differences were found in several parameters in the control groups. Considering membrane resistance, rheobase, voltage sag slope, and afterdepolarization slope, we observed notable changes mainly in the female groups. Valproate treatment seemed to enhance these differences and increase network excitability. However, it is possible that compensatory mechanisms took place during the maturation of the network while reaching the age‐group of 3 months. Based on the results, the expression of the hyperpolarization‐activated cyclic nucleotide‐gated channels may be appreciably affected by the valproate treatment, which influences fundamental electrophysiological properties of the neurons such as the voltage sag. Remarkable changes appeared in the prefrontal cortex; however, also the entorhinal cortex shows similar tendencies.

Publisher

Wiley

Subject

Cellular and Molecular Neuroscience,Developmental Neuroscience

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