Sodium and Calcium Current-Mediated Pacemaker Neurons and Respiratory Rhythm Generation

Del Negro, Christopher A; Morgado-Valle, Consuelo; Hayes, John A; Mackay, Devin D; Pace, Ryland W; Crowder, Erin A; Feldman, Jack L

Publication

Sodium and Calcium Current-Mediated Pacemaker Neurons and Respiratory Rhythm Generation

Del Negro, Christopher A
;
Morgado-Valle, Consuelo
;
Hayes, John A
;
Mackay, Devin D
;
Pace, Ryland W
;
Crowder, Erin A
;
Feldman, Jack L

Abstract

The breathing motor pattern in mammals originates in brainstem networks. Whether pacemaker neurons play an obligatory role remains a key unanswered question. We performed whole-cell recordings in the pre-Botzinger complex in slice preparations from neonatal rodents and tested for pacemaker activity. We observed persistent Na+ current (INaP)-mediated bursting in ∼5% of inspiratory neurons in postnatal day 0 (P0)-P5 and in P8-P10 slices. INaP-mediated bursting was voltage dependent and blocked by 20 μm riluzole (RIL). We found Ca2+ current (ICa)-dependent bursting in 7.5% of inspiratory neurons in P8-P10 slices, but in P0-P5 slices these cells were exceedingly rare (0.6%). This bursting was voltage independent and blocked by 100 μm Cd2+ or flufenamic acid (FFA) (10-200 μm), which suggests that a Ca2+-activated inward cationic current (ICAN) underlies burst generation. These data substantiate our observation that P0-P5 slices exposed to RIL contain few (if any) pacemaker neurons, yet maintain respiratory rhythm. We also show that 20 nm TTX or coapplication of 20 μm RIL + FFA (100-200 μm) stops the respiratory rhythm, but that adding 2 μm substance P restarts it. We conclude that INaP and ICAN enhance neuronal excitability and promote rhythmogenesis, even if their magnitude is insufficient to support bursting-pacemaker activity in individual neurons. When INaP and ICAN are removed pharmacologically, the rhythm can be maintained by boosting neural excitability, which is inconsistent with a pacemaker-essential mechanism of respiratory rhythmogenesis by the pre-Botzinger complex.

Date

2005-01-12

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Neuroscience

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40_Sodium_and_Calcium_Current_Mediated_Pacemaker_Neurons_and_Respiratory_Rhythm_Generation.pdf

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Department

Neuroscience

DOI

https://doi.org/10.1523/JNEUROSCI.2237-04.2005

URI

https://scholarworks.wm.edu/handle/internal/1899

Sodium and Calcium Current-Mediated Pacemaker Neurons and Respiratory Rhythm Generation

Del Negro, Christopher A
;
Morgado-Valle, Consuelo
;
Hayes, John A
;
Mackay, Devin D
;
Pace, Ryland W
;
Crowder, Erin A
;
Feldman, Jack L

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Sodium and Calcium Current-Mediated Pacemaker Neurons and Respiratory Rhythm Generation

Del Negro, Christopher A ; Morgado-Valle, Consuelo ; Hayes, John A ; Mackay, Devin D ; Pace, Ryland W ; Crowder, Erin A ; Feldman, Jack L

Abstract

Description

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Download Dataset

Files

Rights Holder

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Del Negro, Christopher A
;
Morgado-Valle, Consuelo
;
Hayes, John A
;
Mackay, Devin D
;
Pace, Ryland W
;
Crowder, Erin A
;
Feldman, Jack L