Literature DB >> 19022347

Axon sprouting in adult mouse spinal cord after motor cortex stroke.

Christine M Lapash Daniels1, Kathryn L Ayers, Amanda M Finley, Joseph P Culver, Mark P Goldberg.   

Abstract

Functional reorganization of brain cortical areas occurs following stroke in humans, and many instances of this plasticity are associated with recovery of function. Rodent studies have shown that following a cortical stroke, neurons in uninjured areas of the brain are capable of sprouting new axons into areas previously innervated by injured cortex. The pattern and extent of structural plasticity depend on the species, experimental model, and lesion localization. In this study, we examined the pattern of axon sprouting in spinal cord after a localized lesion which selectively targeted the primary motor cortex in adult mice. We subjected mice to a stereotaxic-guided photothrombotic stroke of the left motor cortex, followed 2 weeks later by an injection of the neuronal tracer biotinylated dextran amine (BDA) into the uninjured right motor cortex. BDA-positive axons originating from the uninjured motor cortex were increased in the gray matter of the right cervical spinal cord in stroke mice, compared to sham control mice. These results show that axon sprouting can occur in the spinal cord of adult wild-type mice after a localized stroke in motor cortex.

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Year:  2008        PMID: 19022347      PMCID: PMC2793320          DOI: 10.1016/j.neulet.2008.11.017

Source DB:  PubMed          Journal:  Neurosci Lett        ISSN: 0304-3940            Impact factor:   3.046


  40 in total

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3.  Ultrastructural evidence for differential axonal sprouting in the striatum after thermocoagulatory and aspiration lesions of the cerebral cortex in adult rats.

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5.  Anti-Nogo-A antibody infusion 24 hours after experimental stroke improved behavioral outcome and corticospinal plasticity in normotensive and spontaneously hypertensive rats.

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6.  Nogo receptor antagonism promotes stroke recovery by enhancing axonal plasticity.

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9.  Non-invasive induction of focal cerebral ischemia in mice by photothrombosis of cortical microvessels: characterization of inflammatory responses.

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Review 3.  Motor System Reorganization After Stroke: Stimulating and Training Toward Perfection.

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5.  Is Remodelling of Corticospinal Tract Terminations Originating in the Intact Hemisphere Associated with Recovery following Transient Ischaemic Stroke in the Rat?

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Review 6.  The IMPROVE Guidelines (Ischaemia Models: Procedural Refinements Of in Vivo Experiments).

Authors:  Nathalie Percie du Sert; Alessio Alfieri; Stuart M Allan; Hilary Vo Carswell; Graeme A Deuchar; Tracy D Farr; Paul Flecknell; Lindsay Gallagher; Claire L Gibson; Michael J Haley; Malcolm R Macleod; Barry W McColl; Christopher McCabe; Anna Morancho; Lawrence Df Moon; Michael J O'Neill; Isabel Pérez de Puig; Anna Planas; C Ian Ragan; Anna Rosell; Lisa A Roy; Kathryn O Ryder; Alba Simats; Emily S Sena; Brad A Sutherland; Mark D Tricklebank; Rebecca C Trueman; Lucy Whitfield; Raymond Wong; I Mhairi Macrae
Journal:  J Cereb Blood Flow Metab       Date:  2017-08-11       Impact factor: 6.200

7.  B cells migrate into remote brain areas and support neurogenesis and functional recovery after focal stroke in mice.

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8.  LZK-dependent stimulation of astrocyte reactivity promotes corticospinal axon sprouting.

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  8 in total

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