Literature DB >> 12718854

Axon regeneration in young adult mice lacking Nogo-A/B.

Ji Eun Kim1, Shuxin Li, Tadzia GrandPré, Dike Qiu, Stephen M Strittmatter.   

Abstract

After injury, axons of the adult mammalian brain and spinal cord exhibit little regeneration. It has been suggested that axon growth inhibitors, such as myelin-derived Nogo, prevent CNS axon repair. To investigate this hypothesis, we analyzed mice with a nogo mutation that eliminates Nogo-A/B expression. These mice are viable and exhibit normal locomotion. Corticospinal tract tracing reveals no abnormality in uninjured nogo-A/B(-/-) mice. After spinal cord injury, corticospinal axons of young adult nogo-A/B(-/-) mice sprout extensively rostral to a transection. Numerous fibers regenerate into distal cord segments of nogo-A/B(-/-) mice. Recovery of locomotor function is improved in these mice. Thus, Nogo-A plays a role in restricting axonal sprouting in the young adult CNS after injury.

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Year:  2003        PMID: 12718854     DOI: 10.1016/s0896-6273(03)00147-8

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  125 in total

1.  Recovery from chronic spinal cord contusion after Nogo receptor intervention.

Authors:  Xingxing Wang; Philip Duffy; Aaron W McGee; Omar Hasan; Grahame Gould; Nathan Tu; Noam Y Harel; Yiyun Huang; Richard E Carson; David Weinzimmer; Jim Ropchan; Larry I Benowitz; William B J Cafferty; Stephen M Strittmatter
Journal:  Ann Neurol       Date:  2011-11       Impact factor: 10.422

Review 2.  Krüppel-like transcription factors in the nervous system: novel players in neurite outgrowth and axon regeneration.

Authors:  Darcie L Moore; Akintomide Apara; Jeffrey L Goldberg
Journal:  Mol Cell Neurosci       Date:  2011-05-24       Impact factor: 4.314

3.  Structure and axon outgrowth inhibitor binding of the Nogo-66 receptor and related proteins.

Authors:  William A Barton; Betty P Liu; Dorothea Tzvetkova; Philip D Jeffrey; Alyson E Fournier; Dinah Sah; Richard Cate; Stephen M Strittmatter; Dimitar B Nikolov
Journal:  EMBO J       Date:  2003-07-01       Impact factor: 11.598

4.  Myelin-derived ephrinB3 restricts axonal regeneration and recovery after adult CNS injury.

Authors:  Philip Duffy; Xingxing Wang; Chad S Siegel; Chad S Seigel; Nathan Tu; Mark Henkemeyer; William B J Cafferty; Stephen M Strittmatter
Journal:  Proc Natl Acad Sci U S A       Date:  2012-03-12       Impact factor: 11.205

Review 5.  Molecular targets in spinal cord injury.

Authors:  Stefan Klussmann; Ana Martin-Villalba
Journal:  J Mol Med (Berl)       Date:  2005-08-02       Impact factor: 4.599

6.  Differential expression of genes at stages when regeneration can and cannot occur after injury to immature mammalian spinal cord.

Authors:  Miranda Mladinic; Marie Wintzer; Elaine Del Bel; Cristina Casseler; Dejan Lazarevic; Sergio Crovella; Stefano Gustincich; Antonino Cattaneo; John Nicholls
Journal:  Cell Mol Neurobiol       Date:  2005-03       Impact factor: 5.046

Review 7.  Targeting myelin to optimize plasticity of spared spinal axons.

Authors:  Angela L M Scott; Leanne M Ramer; Lesley J J Soril; Jacek M Kwiecien; Matt S Ramer
Journal:  Mol Neurobiol       Date:  2006-04       Impact factor: 5.590

8.  Sialidase enhances spinal axon outgrowth in vivo.

Authors:  Lynda J S Yang; Ileana Lorenzini; Katarina Vajn; Andrea Mountney; Lawrence P Schramm; Ronald L Schnaar
Journal:  Proc Natl Acad Sci U S A       Date:  2006-07-17       Impact factor: 11.205

Review 9.  Translational spinal cord injury research: preclinical guidelines and challenges.

Authors:  Paul J Reier; Michael A Lane; Edward D Hall; Y D Teng; Dena R Howland
Journal:  Handb Clin Neurol       Date:  2012

10.  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
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