Tero Viitanen scite author profile

Pathophysiological activity and various kinds of traumatic insults are known to have deleterious long-term effects on neuronal Cl− regulation, which can lead to a suppression of fast postsynaptic GABAergic responses. Brain-derived neurotrophic factor (BDNF) increases neuronal excitability through a conjunction of mechanisms that include regulation of the efficacy of GABAergic transmission. Here, we show that exposure of rat hippocampal slice cultures and acute slices to exogenous BDNF or neurotrophin-4 produces a TrkB-mediated fall in the neuron-specific K+–Cl− cotransporter KCC2 mRNA and protein, as well as a consequent impairment in neuronal Cl− extrusion capacity. After kindling-induced seizures in vivo, the expression of KCC2 is down-regulated in the mouse hippocampus with a spatiotemporal profile complementary to the up-regulation of TrkB and BDNF. The present data demonstrate a novel mechanism whereby BDNF/TrkB signaling suppresses chloride-dependent fast GABAergic inhibition, which most likely contributes to the well-known role of TrkB-activated signaling cascades in the induction and establishment of epileptic activity.

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The K⁺–Cl⁻cotransporter KCC2 promotes GABAergic excitation in the mature rat hippocampus

Viitanen¹,

Ruusuvuori²,

Kaila

et al. 2010

The Journal of Physiology

181

226

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Cell Type-Specific Differences in Chloride-Regulatory Mechanisms and GABA_AReceptor-Mediated Inhibition in Rat Substantia Nigra

et al. 2003

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The regulation of intracellular chloride has important roles in neuronal function, especially by setting the magnitude and direction of the Cl- flux gated by GABA(A) receptors. Previous studies have shown that GABA(A)-mediated inhibition is less effective in dopaminergic than in GABAergic neurons in substantia nigra. We studied whether this phenomenon may be related to a difference in Cl-regulatory mechanisms. Light-microscopic immunocytochemistry revealed that the potassium-chloride cotransporter 2 (KCC2) was localized only in the dendrites of nondopaminergic (primarily GABAergic) neurons in the substantia nigra, whereas the voltage-sensitive chloride channel 2 (ClC-2) was observed only in the dopaminergic neurons of the pars compacta. Electron-microscopic immunogold labeling confirmed that KCC2 is localized in the dendritic plasma membrane of GABAergic neurons close to inhibitory synapses. Confocal microscopy showed that ClC-2 was selectively expressed in the somatic and dendritic cell membranes of the dopaminergic neurons. Gramicidin-perforated-patch recordings revealed that the GABA(A) IPSP reversal potential was significantly less negative and had a much smaller hyperpolarizing driving force in dopaminergic than in GABAergic neurons. The GABA(A) reversal potential was significantly less negative in bicarbonate-free buffer in dopaminergic but not in GABAergic neurons. The present study suggests that KCC2 is responsible for maintaining the low intracellular Cl- concentration in nigral GABAergic neurons, whereas a sodium-dependent anion (Cl--HCO3-) exchanger and ClC-2 are likely to serve this role in dopaminergic neurons. The relatively low efficacy of GABAA-mediated inhibition in nigral dopaminergic neurons compared with nigral GABAergic neurons may be related to their lack of KCC2.

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Tero Viitanen

BDNF-induced TrkB activation down-regulates the K+–Cl− cotransporter KCC2 and impairs neuronal Cl− extrusion

The K⁺–Cl⁻cotransporter KCC2 promotes GABAergic excitation in the mature rat hippocampus

Cell Type-Specific Differences in Chloride-Regulatory Mechanisms and GABA_AReceptor-Mediated Inhibition in Rat Substantia Nigra

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Tero Viitanen

BDNF-induced TrkB activation down-regulates the K+–Cl− cotransporter KCC2 and impairs neuronal Cl− extrusion

The K+–Cl−cotransporter KCC2 promotes GABAergic excitation in the mature rat hippocampus

Cell Type-Specific Differences in Chloride-Regulatory Mechanisms and GABAAReceptor-Mediated Inhibition in Rat Substantia Nigra

Contact Info

Product

Resources

About

The K⁺–Cl⁻cotransporter KCC2 promotes GABAergic excitation in the mature rat hippocampus

Cell Type-Specific Differences in Chloride-Regulatory Mechanisms and GABA_AReceptor-Mediated Inhibition in Rat Substantia Nigra