
handle: 10138/330249
KCC2, best known as the neuron-specific chloride-extruder that sets the strength and polarity of GABAergic currents during neuronal maturation, isa multifunctional molecule that can regulate cytoskeletal dynamics via its C-terminal domain (CTD). We describe the molecular and cellular mechanisms involved in the multiple functions of KCC2 and its splice variants, ranging from developmental apoptosis and the control of early network events to the formation and plasticity of cortical dendritic spines. The versatility of KCC2 actions at the cellular and subcellular levels is also evident in mature neurons during plasticity, disease, and aging. Thus, KCC2 has emerged as one of the most important molecules that shape the overall neuronal phenotype.
Peer reviewed
SPAK/OSR1 KINASES, RECEPTOR, ION-TRANSPORT, GABA ACTIONS, Neurosciences, CATION-CHLORIDE COTRANSPORTERS, CRYO-EM STRUCTURES, NEURONAL-ACTIVITY, K-CL COTRANSPORTER, DENDRITIC SPINES, ACTIN DYNAMICS
SPAK/OSR1 KINASES, RECEPTOR, ION-TRANSPORT, GABA ACTIONS, Neurosciences, CATION-CHLORIDE COTRANSPORTERS, CRYO-EM STRUCTURES, NEURONAL-ACTIVITY, K-CL COTRANSPORTER, DENDRITIC SPINES, ACTIN DYNAMICS
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