K Wang scite author profile

/ Summary.Efficacious neuronal inhibition is sustained by the neuronal K + Cl -co-transporter KCC2, and loss of KCC2 function through injury or mutation is associated with altered GABAergic signalling and neuronal seizures. Here we report a transgenic mouse with conditional KCC2 overexpression that results in increased membrane transport function. Increased KCC2 has little impact on behavioural and in vitro assays of neuronal excitability and GABAA receptor responses under resting conditions. In contrast, increased KCC2 imparts resistance to seizurelike neuronal activity in hippocampal slices and prevents the progression of mice into behavioural status epilepticus following multiple kainic acid doses. Our results demonstrate a transgenic mouse to facilitate investigations into the role of KCC2 in brain function, and provide a proof of principle that targeting KCC2 may be an effective way to selectively enhance neuronal inhibition to mitigate against diseases that involve an imbalance between excitation and inhibition.

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Motility changes induced by intraluminal FeSO₄ in guinea pig jejunum

Wang

Senadheera

Polglaze

et al. 2013

Neurogastroenterology Motil

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Topic: Abdominal Wall Hernia — Umbilical hernia: choice of approach, repair, results, follow up

Wang

Berney

Shvets

et al. 2015

Hernia

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K Wang

Conditional Upregulation of KCC2 selectively enhances neuronal inhibition during seizures

Motility changes induced by intraluminal FeSO₄ in guinea pig jejunum

Topic: Abdominal Wall Hernia — Umbilical hernia: choice of approach, repair, results, follow up

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K Wang

Conditional Upregulation of KCC2 selectively enhances neuronal inhibition during seizures

Motility changes induced by intraluminal FeSO4 in guinea pig jejunum

Topic: Abdominal Wall Hernia — Umbilical hernia: choice of approach, repair, results, follow up

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Product

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Motility changes induced by intraluminal FeSO₄ in guinea pig jejunum