Literature DB >> 25329344

Non-linear developmental trajectory of electrical phenotype in rat substantia nigra pars compacta dopaminergic neurons.

Martial A Dufour1, Adele Woodhouse1, Julien Amendola1, Jean-Marc Goaillard1.   

Abstract

Neurons have complex electrophysiological properties, however, it is often difficult to determine which properties are the most relevant to neuronal function. By combining current-clamp measurements of electrophysiological properties with multi-variate analysis (hierarchical clustering, principal component analysis), we were able to characterize the postnatal development of substantia nigra dopaminergic neurons' electrical phenotype in an unbiased manner, such that subtle changes in phenotype could be analyzed. We show that the intrinsic electrical phenotype of these neurons follows a non-linear trajectory reaching maturity by postnatal day 14, with two developmental transitions occurring between postnatal days 3-5 and 9-11. This approach also predicted which parameters play a critical role in phenotypic variation, enabling us to determine (using pharmacology, dynamic-clamp) that changes in the leak, sodium and calcium-activated potassium currents are central to these two developmental transitions. This analysis enables an unbiased definition of neuronal type/phenotype that is applicable to a range of research questions.

Entities:  

Keywords:  electrophysiology; neuroscience; principal component analysis; rat; substantia nigra

Mesh:

Year:  2014        PMID: 25329344      PMCID: PMC4241557          DOI: 10.7554/eLife.04059

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


  65 in total

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  10 in total

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Journal:  eNeuro       Date:  2017-11-21

6.  Moderate Changes in CO2 Modulate the Firing of Neurons in the VTA and Substantia Nigra.

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7.  Methadone Suppresses Neuronal Function and Maturation in Human Cortical Organoids.

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8.  Electrophysiological Properties of Induced Pluripotent Stem Cell-Derived Midbrain Dopaminergic Neurons Correlate With Expression of Tyrosine Hydroxylase.

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9.  Neurotransmitter identity and electrophysiological phenotype are genetically coupled in midbrain dopaminergic neurons.

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  10 in total

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