Literature DB >> 17148945

Axon pruning in the developing vertebrate hippocampus.

Regina L Faulkner1, Lawrence K Low, Hwai-Jong Cheng.   

Abstract

During early development of the central nervous system (CNS), there is an exuberant outgrowth of projections which later need to be refined to achieve precise connectivity. One widely used strategy for this refinement is axon pruning. Axon pruning has also been suggested to be involved in creating more diverse connection patterns between different species. An understanding of the mechanism of pruning, however, has been elusive in the CNS. Recent studies have focused on a stereotyped pruning event that occurs within the mossy fibers of the developing vertebrate hippocampus. In the following discussion, we will review the cellular and molecular factors that are known to regulate pruning in the hippocampus and highlight some advantages this system presents for future studies on pruning in the developing CNS.

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Year:  2007        PMID: 17148945     DOI: 10.1159/000096207

Source DB:  PubMed          Journal:  Dev Neurosci        ISSN: 0378-5866            Impact factor:   2.984


  18 in total

Review 1.  Guidance molecules in axon pruning and cell death.

Authors:  Pierre Vanderhaeghen; Hwai-Jong Cheng
Journal:  Cold Spring Harb Perspect Biol       Date:  2010-04-21       Impact factor: 10.005

2.  Plexin signaling selectively regulates the stereotyped pruning of corticospinal axons from visual cortex.

Authors:  Lawrence K Low; Xiao-Bo Liu; Regina L Faulkner; Jeffrey Coble; Hwai-Jong Cheng
Journal:  Proc Natl Acad Sci U S A       Date:  2008-06-03       Impact factor: 11.205

3.  Competing molecular interactions of aPKC isoforms regulate neuronal polarity.

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Journal:  Proc Natl Acad Sci U S A       Date:  2013-08-12       Impact factor: 11.205

4.  The GAP between axon pruning and repulsion.

Authors:  Youngshik Choe; Samuel J Pleasure
Journal:  Dev Cell       Date:  2012-07-17       Impact factor: 12.270

5.  Early life stress perturbs the maturation of microglia in the developing hippocampus.

Authors:  Jean-Christophe Delpech; Lan Wei; Jin Hao; Xiaoqing Yu; Charlotte Madore; Oleg Butovsky; Arie Kaffman
Journal:  Brain Behav Immun       Date:  2016-06-11       Impact factor: 7.217

Review 6.  Errant gardeners: glial-cell-dependent synaptic pruning and neurodevelopmental disorders.

Authors:  Urte Neniskyte; Cornelius T Gross
Journal:  Nat Rev Neurosci       Date:  2017-09-21       Impact factor: 34.870

7.  Inhibition of RhoA reduces propofol-mediated growth cone collapse, axonal transport impairment, loss of synaptic connectivity, and behavioural deficits.

Authors:  M L Pearn; J M Schilling; M Jian; J Egawa; C Wu; C D Mandyam; M J Fannon-Pavlich; U Nguyen; J Bertoglio; M Kodama; S K Mahata; C DerMardirossian; B P Lemkuil; R Han; W C Mobley; H H Patel; P M Patel; B P Head
Journal:  Br J Anaesth       Date:  2018-02-15       Impact factor: 9.166

8.  Neuronal growth cone retraction relies on proneurotrophin receptor signaling through Rac.

Authors:  Katrin Deinhardt; Taeho Kim; Daniel S Spellman; Richard E Mains; Betty A Eipper; Thomas A Neubert; Moses V Chao; Barbara L Hempstead
Journal:  Sci Signal       Date:  2011-12-06       Impact factor: 8.192

9.  Early life stress increases anxiety-like behavior in Balb c mice despite a compensatory increase in levels of postnatal maternal care.

Authors:  Lan Wei; Aisha David; Ron S Duman; Hymie Anisman; Arie Kaffman
Journal:  Horm Behav       Date:  2010-01-22       Impact factor: 3.587

10.  Decreased number of interneurons and increased seizures in neuropilin 2 deficient mice: implications for autism and epilepsy.

Authors:  John C Gant; Oliver Thibault; Eric M Blalock; Jun Yang; Adam Bachstetter; James Kotick; Paula E Schauwecker; Kurt F Hauser; George M Smith; Ron Mervis; YanFang Li; Gregory N Barnes
Journal:  Epilepsia       Date:  2008-07-24       Impact factor: 5.864
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