Journal
JOURNAL OF NEUROSCIENCE
Volume 38, Issue 38, Pages 8295-8310Publisher
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.0651-18.2018
Keywords
basal ganglia; dendrites; initial segment; pacemaking
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Funding
- Fondecyt [1141170]
- Anillo [ACT-1109]
- National Institutes of Health [R01DA041705]
- Alcohol and Drug Abuse Center of Excellence at the Louisiana State University Health Sciences Center
- NATIONAL INSTITUTE ON DRUG ABUSE [R01DA041705] Funding Source: NIH RePORTER
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Action potentials (APs) in nigral dopaminergic neurons often exhibit two separate components: the first reflecting spike initiation in the dendritically located axon initial segment (AIS) and the second the subsequent dendro-somatic spike. These components are separated by a notch in the ascending phase of the somatic extracellular waveform and in the temporal derivative of the somatic intracellular waveform. Still, considerable variability exists in the presence and magnitude of the notch across neurons. To systematically address the contribution of AIS, dendritic and somatic compartments to shaping the two-component APs, we modeled APs of previously in vivo electrophysiologically characterized and 3D-reconstructed male mouse and rat dopaminergic neurons. A parsimonious two-domain model, with high (AIS) and lower (dendro-somatic) Na+ conductance, reproduced the notch in the temporal derivatives, but not in the extracellular APs, regardless of morphology. The notch was only revealed when somatic active currents were reduced, constraining the model to three domains. Thus, an initial AIS spike is followed by an actively generated spike by the axon-bearing dendrite (ABD), in turn followed mostly passively by the soma. The transition from being a source compartment for the AIS spike to a source compartment for the BD spike satisfactorily explains the extracellular somatic notch. Larger AISs and thinner ABD (but not soma-to-AIS distance) accentuate the AIS component. We conclude that variability in AIS size and ABD caliber explains variability in AP extracellular waveform and separation of AIS and dendro-somatic components, given the presence of at least three functional domains with distinct excitability characteristics.
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