Literature DB >> 25878286

Neural precursor lineages specify distinct neocortical pyramidal neuron types.

William A Tyler1, Maria Medalla1, Teresa Guillamon-Vivancos1, Jennifer I Luebke2, Tarik F Haydar2.   

Abstract

Several neural precursor populations contemporaneously generate neurons in the developing neocortex. Specifically, radial glial stem cells of the dorsal telencephalon divide asymmetrically to produce excitatory neurons, but also indirectly to produce neurons via three types of intermediate progenitor cells. Why so many precursor types are needed to produce neurons has not been established; whether different intermediate progenitor cells merely expand the output of radial glia or instead generate distinct types of neurons is unknown. Here we use a novel genetic fate mapping technique to simultaneously track multiple precursor streams in the developing mouse brain and show that layer 2 and 3 pyramidal neurons exhibit distinctive electrophysiological and structural properties depending upon their precursor cell type of origin. These data indicate that individual precursor subclasses synchronously produce functionally different neurons, even within the same lamina, and identify a primary mechanism leading to cortical neuronal diversity.
Copyright © 2015 the authors 0270-6474/15/356142-11$15.00/0.

Entities:  

Keywords:  electrophysiology; intermediate progenitor; layer 2/3; morphology; neurogenesis; radial glia

Mesh:

Substances:

Year:  2015        PMID: 25878286      PMCID: PMC4397608          DOI: 10.1523/JNEUROSCI.0335-15.2015

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  65 in total

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Review 2.  Untangling dendrites with quantitative models.

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Review 3.  Dendritic processing.

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4.  Propagation of action potentials in dendrites depends on dendritic morphology.

Authors:  P Vetter; A Roth; M Häusser
Journal:  J Neurophysiol       Date:  2001-02       Impact factor: 2.714

5.  Radial glial identity is promoted by Notch1 signaling in the murine forebrain.

Authors:  N Gaiano; J S Nye; G Fishell
Journal:  Neuron       Date:  2000-05       Impact factor: 17.173

6.  Sequential phases of cortical specification involve Neurogenin-dependent and -independent pathways.

Authors:  Carol Schuurmans; Olivier Armant; Marta Nieto; Jan M Stenman; Olivier Britz; Natalia Klenin; Craig Brown; Lisa-Marie Langevin; Julie Seibt; Hua Tang; James M Cunningham; Richard Dyck; Christopher Walsh; Kenny Campbell; Franck Polleux; François Guillemot
Journal:  EMBO J       Date:  2004-07-01       Impact factor: 11.598

7.  OSVZ progenitors of human and ferret neocortex are epithelial-like and expand by integrin signaling.

Authors:  Simone A Fietz; Iva Kelava; Johannes Vogt; Michaela Wilsch-Bräuninger; Denise Stenzel; Jennifer L Fish; Denis Corbeil; Axel Riehn; Wolfgang Distler; Robert Nitsch; Wieland B Huttner
Journal:  Nat Neurosci       Date:  2010-05-02       Impact factor: 24.884

8.  Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex.

Authors:  Karlijn I van Aerde; Dirk Feldmeyer
Journal:  Cereb Cortex       Date:  2013-10-09       Impact factor: 5.357

9.  Heterogeneity in ventricular zone neural precursors contributes to neuronal fate diversity in the postnatal neocortex.

Authors:  Elizabeth K Stancik; Ivan Navarro-Quiroga; Robert Sellke; Tarik F Haydar
Journal:  J Neurosci       Date:  2010-05-19       Impact factor: 6.167

10.  Dividing precursor cells of the embryonic cortical ventricular zone have morphological and molecular characteristics of radial glia.

Authors:  Stephen C Noctor; Alexander C Flint; Tamily A Weissman; Winston S Wong; Brian K Clinton; Arnold R Kriegstein
Journal:  J Neurosci       Date:  2002-04-15       Impact factor: 6.167
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  26 in total

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Journal:  Cell Tissue Res       Date:  2017-11-29       Impact factor: 5.249

2.  Orchestration of Neuronal Differentiation and Progenitor Pool Expansion in the Developing Cortex by SoxC Genes.

Authors:  Chao Chen; Garrett A Lee; Ariel Pourmorady; Elisabeth Sock; Maria J Donoghue
Journal:  J Neurosci       Date:  2015-07-22       Impact factor: 6.167

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Authors:  Noelle D Dwyer; Bin Chen; Shen-Ju Chou; Simon Hippenmeyer; Laurent Nguyen; H Troy Ghashghaei
Journal:  J Neurosci       Date:  2016-11-09       Impact factor: 6.167

4.  Intermediate Progenitor Cohorts Differentially Generate Cortical Layers and Require Tbr2 for Timely Acquisition of Neuronal Subtype Identity.

Authors:  Anca B Mihalas; Gina E Elsen; Francesco Bedogni; Ray A M Daza; Kevyn A Ramos-Laguna; Sebastian J Arnold; Robert F Hevner
Journal:  Cell Rep       Date:  2016-06-16       Impact factor: 9.423

5.  Cortical evolution 2015: Discussion of neural progenitor cell nomenclature.

Authors:  Verónica Martínez-Cerdeño; Stephen C Noctor
Journal:  J Comp Neurol       Date:  2015-11-23       Impact factor: 3.215

6.  Distinct Neocortical Progenitor Lineages Fine-tune Neuronal Diversity in a Layer-specific Manner.

Authors:  Teresa Guillamon-Vivancos; William A Tyler; Maria Medalla; Wayne Wei-En Chang; Mayumi Okamoto; Tarik F Haydar; Jennifer I Luebke
Journal:  Cereb Cortex       Date:  2019-03-01       Impact factor: 5.357

7.  Distinct capacity for differentiation to inner ear cell types by progenitor cells of the cochlea and vestibular organs.

Authors:  Will J McLean; Dalton T McLean; Ruth Anne Eatock; Albert S B Edge
Journal:  Development       Date:  2016-10-27       Impact factor: 6.868

Review 8.  From Progenitors to Progeny: Shaping Striatal Circuit Development and Function.

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Journal:  J Neurosci       Date:  2021-11-17       Impact factor: 6.167

9.  Psychiatric Risk Gene Transcription Factor 4 Regulates Intrinsic Excitability of Prefrontal Neurons via Repression of SCN10a and KCNQ1.

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10.  Prolonged Mitosis of Neural Progenitors Alters Cell Fate in the Developing Brain.

Authors:  Louis-Jan Pilaz; John J McMahon; Emily E Miller; Ashley L Lennox; Aussie Suzuki; Edward Salmon; Debra L Silver
Journal:  Neuron       Date:  2016-01-06       Impact factor: 17.173
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