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Literature DB >> 22154154

Growing the growth cone: remodeling the cytoskeleton to promote axon regeneration.

Abstract

Axon growth is driven by the movement of a growth cone, a specialized sensory motile structure located at the tip of a growing neurite. Although stalled retraction bulbs have long been recognized as hallmarks of regeneration failure, mechanisms that control the formation and migration of nerve endings are only beginning to be unraveled. Recent studies point to microtubules as key determinants for such processes, and emerging evidence suggests that regulators of actin and microtubule dynamics in the growth cone might serve as attractive targets for controlling both the speed and trajectory of regenerating axons. This review discusses the potential of and recent progress in direct modulation of the growth cone machinery as a novel strategy to promote axon regeneration in the nervous system after injury. Copyright Â

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Actins

Year: 2011 PMID： 22154154 PMCID： PMC3294076 DOI： 10.1016/j.tins.2011.11.002

Source DB: PubMed Journal: Trends Neurosci ISSN： 0166-2236 Impact factor: 13.837

116 in total

1. Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury.

Authors: Farida Hellal; Andres Hurtado; Jörg Ruschel; Kevin C Flynn; Claudia J Laskowski; Martina Umlauf; Lukas C Kapitein; Dinara Strikis; Vance Lemmon; John Bixby; Casper C Hoogenraad; Frank Bradke
Journal: Science Date: 2011-01-27 Impact factor: 47.728

2. Essential roles for GSK-3s and GSK-3-primed substrates in neurotrophin-induced and hippocampal axon growth.

Authors: Woo-Yang Kim; Feng-Quan Zhou; Jiang Zhou; Yukako Yokota; Yan-Min Wang; Takeshi Yoshimura; Kozo Kaibuchi; James R Woodgett; E S Anton; William D Snider
Journal: Neuron Date: 2006-12-21 Impact factor: 17.173

3. HDAC6 is a target for protection and regeneration following injury in the nervous system.

Authors: Mark A Rivieccio; Camille Brochier; Dianna E Willis; Breset A Walker; Melissa A D'Annibale; Kathryn McLaughlin; Ambreena Siddiq; Alan P Kozikowski; Samie R Jaffrey; Jeffery L Twiss; Rajiv R Ratan; Brett Langley
Journal: Proc Natl Acad Sci U S A Date: 2009-11-02 Impact factor: 11.205

4. PTPsigma is a receptor for chondroitin sulfate proteoglycan, an inhibitor of neural regeneration.

Authors: Yingjie Shen; Alan P Tenney; Sarah A Busch; Kevin P Horn; Fernando X Cuascut; Kai Liu; Zhigang He; Jerry Silver; John G Flanagan
Journal: Science Date: 2009-10-15 Impact factor: 47.728

Review 5. Tubulin: a target for antineoplastic drugs into the cancer cells but also in the peripheral nervous system.

Authors: Annalisa Canta; Alessia Chiorazzi; Guido Cavaletti
Journal: Curr Med Chem Date: 2009 Impact factor: 4.530

6. The AP-1 transcription factor c-Jun is required for efficient axonal regeneration.

Authors: Gennadij Raivich; Marion Bohatschek; Clive Da Costa; Osuke Iwata; Matthias Galiano; Maria Hristova; Abdolrahman S Nateri; Milan Makwana; Lluís Riera-Sans; David P Wolfer; Hans-Peter Lipp; Adriano Aguzzi; Erwin F Wagner; Axel Behrens
Journal: Neuron Date: 2004-07-08 Impact factor: 17.173

7. Dorsal root ganglion neurons react to semaphorin 3A application through a biphasic response that requires multiple myosin II isoforms.

Authors: Jacquelyn A Brown; Robert B Wysolmerski; Paul C Bridgman
Journal: Mol Biol Cell Date: 2008-12-24 Impact factor: 4.138

Review 8. Sirtuins in mammals: insights into their biological function.

Authors: Shaday Michan; David Sinclair
Journal: Biochem J Date: 2007-05-15 Impact factor: 3.857

9. Filopodia and actin arcs guide the assembly and transport of two populations of microtubules with unique dynamic parameters in neuronal growth cones.

Authors: Andrew W Schaefer; Nurul Kabir; Paul Forscher
Journal: J Cell Biol Date: 2002-07-08 Impact factor: 10.539

10. Myosin II has distinct functions in PNS and CNS myelin sheath formation.

Authors: Haibo Wang; Ambika Tewari; Steven Einheber; James L Salzer; Carmen V Melendez-Vasquez
Journal: J Cell Biol Date: 2008-09-15 Impact factor: 10.539

48 in total

1. Role of Myc Proto-Oncogene as a Transcriptional Hub to Regulate the Expression of Regeneration-Associated Genes following Preconditioning Peripheral Nerve Injury.

Authors: Hae Young Shin; Min Jung Kwon; Eun Mi Lee; Kyung Kim; Young Joo Oh; Hyung Soon Kim; Dong Hoon Hwang; Byung Gon Kim
Journal: J Neurosci Date: 2020-12-01 Impact factor: 6.167

Review 2. Signaling pathways that regulate axon regeneration.

Authors: Bo-Yin Zhang; Feng-Quan Zhou
Journal: Neurosci Bull Date: 2013-07-11 Impact factor: 5.203

3. KIF2A characterization after spinal cord injury.

Authors: Oscar Seira; Jie Liu; Peggy Assinck; Matt Ramer; Wolfram Tetzlaff
Journal: Cell Mol Life Sci Date: 2019-04-30 Impact factor: 9.261

Review 4. Intra-axonal mechanisms driving axon regeneration.

Authors: Terika P Smith; Pabitra K Sahoo; Amar N Kar; Jeffery L Twiss
Journal: Brain Res Date: 2020-04-28 Impact factor: 3.252

5. Autophagy induction stabilizes microtubules and promotes axon regeneration after spinal cord injury.

Authors: Miao He; Yuetong Ding; Chen Chu; Jing Tang; Qi Xiao; Zhen-Ge Luo
Journal: Proc Natl Acad Sci U S A Date: 2016-09-16 Impact factor: 11.205

6. Urokinase-type Plasminogen Activator (uPA) Binding to the uPA Receptor (uPAR) Promotes Axonal Regeneration in the Central Nervous System.

Authors: Paola Merino; Ariel Diaz; Valerie Jeanneret; Fang Wu; Enrique Torre; Lihong Cheng; Manuel Yepes
Journal: J Biol Chem Date: 2016-12-16 Impact factor: 5.157