In multiple sclerosis (MS), inflammation in the central nervous system (CNS) leads to damage of axons and myelin. Early during the clinical course, patients can compensate this damage, but little is known about the changes that underlie this improvement of neurological function. To study axonal changes that may contribute to recovery, we made use of an animal model of MS, which allows us to target inflammatory lesions to the corticospinal tract (CST), a major descending motor pathway. We demonstrate that axons remodel at multiple levels in response to a single neuroinflammatory lesion as follows: (a) surrounding the lesion, local interneurons show regenerative sprouting; (b) above the lesion, descending CST axons extend new collaterals that establish a “detour” circuit to the lumbar target area, whereas below the lesion, spared CST axons increase their terminal branching; and (c) in the motor cortex, the distribution of projection neurons is remodeled, and new neurons are recruited to the cortical motor pool. Behavioral tests directly show the importance of these changes for recovery. This paper provides evidence for a highly plastic response of the motor system to a single neuroinflammatory lesion. This framework will help to understand the endogenous repair capacity of the CNS and to develop therapeutic strategies to support it.
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18 October 2004
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October 18 2004
Remodeling of Axonal Connections Contributes to Recovery in an Animal Model of Multiple Sclerosis
Martin Kerschensteiner,
Martin Kerschensteiner
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
4Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
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Florence M. Bareyre,
Florence M. Bareyre
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
4Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
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Bigna S. Buddeberg,
Bigna S. Buddeberg
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
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Doron Merkler,
Doron Merkler
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
3Institute of Neuropathology, University of Göttingen, D-37075 Göttingen, Germany
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Christine Stadelmann,
Christine Stadelmann
3Institute of Neuropathology, University of Göttingen, D-37075 Göttingen, Germany
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Wolfgang Brück,
Wolfgang Brück
3Institute of Neuropathology, University of Göttingen, D-37075 Göttingen, Germany
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Thomas Misgeld,
Thomas Misgeld
4Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
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Martin E. Schwab
Martin E. Schwab
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
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Martin Kerschensteiner
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
4Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
Florence M. Bareyre
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
4Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
Bigna S. Buddeberg
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
Doron Merkler
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
3Institute of Neuropathology, University of Göttingen, D-37075 Göttingen, Germany
Christine Stadelmann
3Institute of Neuropathology, University of Göttingen, D-37075 Göttingen, Germany
Wolfgang Brück
3Institute of Neuropathology, University of Göttingen, D-37075 Göttingen, Germany
Thomas Misgeld
4Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
Martin E. Schwab
1Department of Neuromorphology, Brain Research Institute, University of Zurich
2Department of Biology, Swiss Federal Institute of Technology Zurich, CH-8057 Zurich, Switzerland
Address correspondence to Martin Kerschensteiner, Dept. of Molecular and Cellular Biology, Harvard University, 7 Divinity Ave., Cambridge, MA 02138. Phone: (617) 496-9271; Fax: (617) 496-9590; email: [email protected]
Abbreviations used in this paper: BDA, biotinylated dextran amine; CNS, central nervous system; CST, corticospinal tract; EAE, experimental autoimmune encephalomyelitis; MS, multiple sclerosis; PRV, pseudo-rabies virus Bartha; PSN, propriospinal neuron.
Received:
March 09 2004
Accepted:
September 01 2004
Online ISSN: 1540-9538
Print ISSN: 0022-1007
The Rockefeller University Press
2004
J Exp Med (2004) 200 (8): 1027–1038.
Article history
Received:
March 09 2004
Accepted:
September 01 2004
Citation
Martin Kerschensteiner, Florence M. Bareyre, Bigna S. Buddeberg, Doron Merkler, Christine Stadelmann, Wolfgang Brück, Thomas Misgeld, Martin E. Schwab; Remodeling of Axonal Connections Contributes to Recovery in an Animal Model of Multiple Sclerosis . J Exp Med 18 October 2004; 200 (8): 1027–1038. doi: https://doi.org/10.1084/jem.20040452
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