Literature DB >> 22717989

Neural regeneration: lessons from regenerating and non-regenerating systems.

Leonardo M R Ferreira1, Elisa M Floriddia, Giorgia Quadrato, Simone Di Giovanni.   

Abstract

One only needs to see a salamander regrowing a lost limb to become fascinated by regeneration. However, the lack of robust axonal regeneration models for which good cellular and molecular tools exist has hampered progress in the field. Nevertheless, the nervous system has been revealed to be an excellent model to investigate regeneration. There are conspicuous differences in neuroregeneration capacity between amphibia and warm-blooded animals, as well as between the central and the peripheral nervous systems in mammals. Exploration of such discrepancies led to significant discoveries on the basic tenets of neuroregeneration in the last two decades, identifying several positive and negative regulators of axonal regeneration. Implications of these findings to the comprehension of mammalian regeneration and to the development of spinal cord injury therapies are also addressed.

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Year:  2012        PMID: 22717989     DOI: 10.1007/s12035-012-8290-9

Source DB:  PubMed          Journal:  Mol Neurobiol        ISSN: 0893-7648            Impact factor:   5.590


  149 in total

Review 1.  How does an axon grow?

Authors:  Jeffrey L Goldberg
Journal:  Genes Dev       Date:  2003-04-15       Impact factor: 11.361

2.  Regeneration of sensory axons within the injured spinal cord induced by intraganglionic cAMP elevation.

Authors:  Simona Neumann; Frank Bradke; Marc Tessier-Lavigne; Allan I Basbaum
Journal:  Neuron       Date:  2002-06-13       Impact factor: 17.173

3.  From snails to sciatic nerve: Retrograde injury signaling from axon to soma in lesioned neurons.

Authors:  Eran Perlson; Shlomit Hanz; Katalin F Medzihradszky; Alma L Burlingame; Mike Fainzilber
Journal:  J Neurobiol       Date:  2004-02-05

4.  Sustaining intrinsic growth capacity of adult neurons promotes spinal cord regeneration.

Authors:  Simona Neumann; Kate Skinner; Allan I Basbaum
Journal:  Proc Natl Acad Sci U S A       Date:  2005-11-07       Impact factor: 11.205

5.  Multipotentiality of Schwann cells in cross-anastomosed and grafted myelinated and unmyelinated nerves: quantitative microscopy and radioautography.

Authors:  A J Aguayo; J Epps; L Charron; G M Bray
Journal:  Brain Res       Date:  1976-03-05       Impact factor: 3.252

6.  Anti-Nogo-A antibody treatment enhances sprouting of corticospinal axons rostral to a unilateral cervical spinal cord lesion in adult macaque monkey.

Authors:  Patrick Freund; Thierry Wannier; Eric Schmidlin; Jocelyne Bloch; Anis Mir; Martin E Schwab; Eric M Rouiller
Journal:  J Comp Neurol       Date:  2007-06-01       Impact factor: 3.215

7.  The aneurogenic limb identifies developmental cell interactions underlying vertebrate limb regeneration.

Authors:  Anoop Kumar; Jean-Paul Delgado; Phillip B Gates; Graham Neville; Andrew Forge; Jeremy P Brockes
Journal:  Proc Natl Acad Sci U S A       Date:  2011-08-08       Impact factor: 11.205

8.  Combinatorial therapy with neurotrophins and cAMP promotes axonal regeneration beyond sites of spinal cord injury.

Authors:  Paul Lu; Hong Yang; Leonard L Jones; Marie T Filbin; Mark H Tuszynski
Journal:  J Neurosci       Date:  2004-07-14       Impact factor: 6.167

9.  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

10.  Nerve-induced ectopic limb blastemas in the Axolotl are equivalent to amputation-induced blastemas.

Authors:  Akira Satoh; David M Gardiner; Susan V Bryant; Tetsuya Endo
Journal:  Dev Biol       Date:  2007-09-25       Impact factor: 3.582
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  7 in total

Review 1.  Anatomical and electrophysiological plasticity of locomotor networks following spinal transection in the salamander.

Authors:  Jean-Marie Cabelguen; Stéphanie Chevallier; Ianina Amontieva-Potapova; Céline Philippe
Journal:  Neurosci Bull       Date:  2013-07-28       Impact factor: 5.203

2.  Enriched conditioning expands the regenerative ability of sensory neurons after spinal cord injury via neuronal intrinsic redox signaling.

Authors:  Francesco De Virgiliis; Thomas H Hutson; Ilaria Palmisano; Sarah Amachree; Jian Miao; Luming Zhou; Rositsa Todorova; Richard Thompson; Matt C Danzi; Vance P Lemmon; John L Bixby; Ilka Wittig; Ajay M Shah; Simone Di Giovanni
Journal:  Nat Commun       Date:  2020-12-21       Impact factor: 14.919

3.  A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program.

Authors:  Vijayendran Chandran; Giovanni Coppola; Homaira Nawabi; Takao Omura; Revital Versano; Eric A Huebner; Alice Zhang; Michael Costigan; Ajay Yekkirala; Lee Barrett; Armin Blesch; Izhak Michaelevski; Jeremy Davis-Turak; Fuying Gao; Peter Langfelder; Steve Horvath; Zhigang He; Larry Benowitz; Mike Fainzilber; Mark Tuszynski; Clifford J Woolf; Daniel H Geschwind
Journal:  Neuron       Date:  2016-02-18       Impact factor: 17.173

4.  Monitoring Autophagy in Neural Stem and Progenitor Cells.

Authors:  Romina L Filippelli; Samaneh Kamyabiazar; Natasha C Chang
Journal:  Methods Mol Biol       Date:  2022

5.  Phosphoinositide 5- and 3-phosphatase activities of a voltage-sensing phosphatase in living cells show identical voltage dependence.

Authors:  Dongil Keum; Martin Kruse; Dong-Il Kim; Bertil Hille; Byung-Chang Suh
Journal:  Proc Natl Acad Sci U S A       Date:  2016-05-24       Impact factor: 11.205

Review 6.  Endogenous bioelectric fields: a putative regulator of wound repair and regeneration in the central nervous system.

Authors:  Matthew L Baer; Raymond J Colello
Journal:  Neural Regen Res       Date:  2016-06       Impact factor: 5.135

7.  Brief Electrical Stimulation Triggers an Effective Regeneration of Leech CNS.

Authors:  Sharon Cohen; Alon Richter-Levin; Orit Shefi
Journal:  eNeuro       Date:  2020-06-25
  7 in total

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