Sheila M. S. Sears scite author profile

An optimally functional brain requires both excitatory and inhibitory inputs that are regulated and balanced. A perturbation in the excitatory/inhibitory balance—as is the case in some neurological disorders/diseases (e.g. traumatic brain injury Alzheimer’s disease, stroke, epilepsy and substance abuse) and disorders of development (e.g. schizophrenia, Rhett syndrome and autism spectrum disorder)—leads to dysfunctional signaling, which can result in impaired cognitive and motor function, if not frank neuronal injury. At the cellular level, transmission of glutamate and GABA, the principle excitatory and inhibitory neurotransmitters in the central nervous system control excitatory/inhibitory balance. Herein, we review the synthesis, release, and signaling of GABA and glutamate followed by a focused discussion on the importance of their transport systems to the maintenance of excitatory/inhibitory balance.

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Decreased epileptogenesis in mice lacking the System x_c⁻ transporter occurs in association with a reduction in AMPA receptor subunit GluA1

Sears

Hewett

2019

Epilepsia Open

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Summary Objective Although the cystine/glutamate antiporter System xc− (Sxc−) plays a permissive role in glioma‐associated seizures, its contribution to other acquired epilepsies has not been determined. As such, the present study investigates whether and how Sxc− contributes to the pentylenetetrazole (PTZ) chemical kindling model of epileptogenesis. Methods Male Sxc− null (sut/sut) mice and their wild‐type littermates were administered PTZ (i.p.) daily for up to 21 days (kindling paradigm). Seizure severity was scored on a 5‐point behavioral scale. Mossy fiber sprouting, cellular degeneration, and Sxc− light chain (xCT) messenger RNA (mRNA) were explored using Timm staining, thionin staining, and real‐time quantitative polymerase chain reaction (qPCR), respectively. Levels of reduced and oxidized glutathione and cysteine were determined via high‐performance liquid chromatography (HPLC). Plasma membrane protein levels of glutamate and γ‐aminobutyric acid (GABA) receptor subunits as well as the K+/Cl− co‐transporter KCC2 were quantified via western blot analysis. Results Repeated administration of PTZ produced chemical kindling in only 50% of Sxc− null mice as compared to 82% of wild‐type littermate control mice. Kindling did not result in any changes in xCT mRNA levels assessed in wild‐type mice. No cellular degeneration or mossy fiber sprouting was discernible in either genotype. Except for a small, but significant, decrease in oxidized cysteine in the hippocampus, no other change in measured redox couples was determined in Sxc− null mice. Cortical levels of the α‐amino‐3‐hydroxy‐5‐methyl‐4‐isoxazolepropionic acid (AMPA) receptor subunit GluA1 were decreased in Sxc− null mice as compared to wild‐type littermates, whereas all other proteins tested showed no difference between genotypes. Significance This study provides the first evidence that Sxc− signaling contributes to epileptogenesis in the PTZ kindling model of acquired epilepsy. Further data indicate that a reduction in AMPA receptor signaling could underlie the resistance to PTZ kindling uncovered in Sxc− null mice.

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Sexually dimorphic and brain region-specific transporter adaptations in system xc− null mice

Sosnoski

Sears

et al. 2020

Neurochemistry International

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Hyperexcitability and brain morphological differences in mice lacking the cystine/glutamate antiporter, system x_c⁻

Sears

Roberts

Hewett

2021

J of Neuroscience Research

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Sheila M. S. Sears

Influence of glutamate and GABA transport on brain excitatory/inhibitory balance

Decreased epileptogenesis in mice lacking the System x_c⁻ transporter occurs in association with a reduction in AMPA receptor subunit GluA1

Sexually dimorphic and brain region-specific transporter adaptations in system xc− null mice

Hyperexcitability and brain morphological differences in mice lacking the cystine/glutamate antiporter, system x_c⁻

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Sheila M. S. Sears

Influence of glutamate and GABA transport on brain excitatory/inhibitory balance

Decreased epileptogenesis in mice lacking the System xc− transporter occurs in association with a reduction in AMPA receptor subunit GluA1

Sexually dimorphic and brain region-specific transporter adaptations in system xc− null mice

Hyperexcitability and brain morphological differences in mice lacking the cystine/glutamate antiporter, system xc−

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Product

Resources

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Decreased epileptogenesis in mice lacking the System x_c⁻ transporter occurs in association with a reduction in AMPA receptor subunit GluA1

Hyperexcitability and brain morphological differences in mice lacking the cystine/glutamate antiporter, system x_c⁻