Hyperexcitability and Brain Morphological Differences in Mice Lacking the Cystine/glutamate Antiporter, System X

Overview

Journal J Neurosci Res

Specialty Neurology

Date 2021 Nov 8

PMID 34747522

Citations 4

Authors

Sheila M S Sears

Sarah H Roberts

Sandra J Hewett

Affiliations

Soon will be listed here.

Abstract

System x (Sx ) is a heteromeric antiporter (L-cystine/L-glutamate exchanger) expressed predominately on astrocytes in the central nervous system. Its activity contributes importantly to the maintenance of the ambient extracellular glutamate levels, as well as, to cellular redox homeostasis. Since alterations in glutamate levels and redox modifications could cause structural changes, we analyzed gross regional morphology of thionin-stained brain sections and cellular and subcellular morphology of Golgi-Cox stained layer V pyramidal neurons in the primary motor cortex (PM1) of mice naturally null for SLC7A11 (SLC7A11 )-the gene that encodes the substrate specific light chain (xCT) for Sx . Intriguingly, in comparison to age- and sex-matched wild-type (SLC7A11 ) littermate controls, we found morphologic changes-including increased dendritic complexity and mushroom spine area in males and reduced corpus callosum and soma size in females-that have previously been described, in each case, as morphological correlates of excitability. Consistent with this, we found that both male and female SLC7A11 mice had lower convulsive seizure thresholds and greater seizure severity than their sex-matched wild-type (SLC7A11 ) littermates after acute challenge with two pharmacologically distinct chemoconvulsants: the Glu receptor agonist, kainic acid (KA), or the GABA receptor antagonist, pentylenetetrazole (PTZ). These results suggest that the loss of Sx signaling in males and females perturbs excitatory/inhibitory (E/I) balance in vivo, potentially through its regulation of cellular and subcellular morphology.

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