Selective Silencing of Individual Dendritic Branches by an MGlu2-activated Potassium Conductance in Dentate Gyrus Granule Cells

Overview

Journal J Neurosci

Specialty Neurology

Date 2013 Apr 26

PMID 23616537

Citations 9

Authors

Janos Brunner

Jeanne Ster

Susan Van-Weert

Tibor Andrasi

Mate Neubrandt

Corrado Corti

Mauro Corsi

Francesco Ferraguti

Urs Gerber

Janos Szabadics

Affiliations

Soon will be listed here.

Abstract

Group II metabotropic glutamate receptors (mGlu-IIs) modulate hippocampal information processing through several presynaptic actions. We describe a novel postsynaptic inhibitory mechanism mediated by the mGlu2 subtype that activates an inwardly rectifying potassium conductance in the dendrites of DG granule cells of rats and mice. Data from glutamate-uncaging experiments and simulations indicate that mGlu2-activated potassium conductance uniformly reduces the peak amplitude of synaptic inputs arriving in the distal two-thirds of dendrites, with only minor effects on proximal inputs. This unique shunting profile is consistent with a peak expression of the mGlu2-activated conductance at the transition between the proximal and middle third of the dendrites. Further simulations under various physiologically relevant conditions showed that when a shunting conductance was activated in the proximal third of a single dendrite, it effectively modulated input to this specific branch while leaving inputs in neighboring dendrites relatively unaffected. Therefore, the restricted expression of the mGlu2-activated potassium conductance in the proximal third of DG granule cell dendrites represents an optimal localization for achieving the opposing biophysical requirements for uniform yet selective modulation of individual dendritic branches.

Citing Articles

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