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Saywell SA, Feldman JL: Dynamic interactions of excitatory and inhibitory inputs in hypoglossal motoneurones: respiratory phasing and modulation by PKA. J Physiol. 2004 Feb 1;554(Pt 3):879-89. Epub 2003 Dec 5.
The balance of excitation and inhibition converging upon a neurone is a principal determinant of neuronal output. We investigated the role of inhibition in shaping and gating inspiratory drive to hypoglossal (XII) motoneuronal activity. In neonatal rat medullary slices that generate a spontaneous respiratory rhythm, patch-clamp recordings were made from XII motoneurones, which were divided into three populations according to their inhibitory inputs: non-inhibited, inspiratory-inhibited and late-inspiratory-inhibited. In late-inspiratory-inhibited motoneurones, blockade of GABA (A) receptors with bicuculline abolished inspiratory-phased inhibition and increased the duration of inspiratory drive currents. In inspiratory-inhibited motoneurones, bicuculline abolished phasic inhibition, which frequently revealed excitatory inspiratory drive currents. In non-inhibited motoneurones, neither bicuculline nor strychnine markedly changed inspiratory drive currents. Inhibitory currents in XII motoneurones were potentiated by protein kinase A (PKA) activity. Intracellular dialysis of the catalytic subunit of PKA or bath application of the PKA activator Sp-cAMP significantly increased the amplitude of expiratory-phased IPSCs without any change in IPSP frequency. Inspiratory-phased inhibition in inspiratory-inhibited motoneurones was potentiated by Sp-cAMP. We conclude that inspiratory-phased inhibition is prevalent in neonatal XII motoneurones and plays an important role in shaping motoneuronal output. These inhibitory inputs are modulated by PKA, which also modulates excitatory inputs. |
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