Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury

Inhibitory extracellular matrices form around mature neurons as perineuronal nets containing chondroitin sulfate proteoglycans (CSPGs) that limit axonal sprouting after CNS injury. The enzyme chondroitinase (Chase) degrades the inhibitory CSPGs and improves axonal sprouting and functional recovery a...

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Autores principales: Rosenzweig, Ephron S., Salegio, Ernesto A., Liang, Justine J., Weber, Janet L., Weinholtz, Chase A., Brock, John H., Moseanko, Rod, Hawbecker, Stephanie, Pender, Roger, Cruzen, Christina L., Iaci, Jennifer F., Caggiano, Anthony O., Blight, Andrew R., Haenzi, Barbara, Huie, J. Russell, Havton, Leif A., Nout-Lomas, Yvette S., Fawcett, James W., Ferguson, Adam R., Beattie, Michael S., Bresnahan, Jacqueline C., Tuszynski, Mark H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6693679/
https://www.ncbi.nlm.nih.gov/pubmed/31235933
http://dx.doi.org/10.1038/s41593-019-0424-1
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author Rosenzweig, Ephron S.
Salegio, Ernesto A.
Liang, Justine J.
Weber, Janet L.
Weinholtz, Chase A.
Brock, John H.
Moseanko, Rod
Hawbecker, Stephanie
Pender, Roger
Cruzen, Christina L.
Iaci, Jennifer F.
Caggiano, Anthony O.
Blight, Andrew R.
Haenzi, Barbara
Huie, J. Russell
Havton, Leif A.
Nout-Lomas, Yvette S.
Fawcett, James W.
Ferguson, Adam R.
Beattie, Michael S.
Bresnahan, Jacqueline C.
Tuszynski, Mark H.
author_facet Rosenzweig, Ephron S.
Salegio, Ernesto A.
Liang, Justine J.
Weber, Janet L.
Weinholtz, Chase A.
Brock, John H.
Moseanko, Rod
Hawbecker, Stephanie
Pender, Roger
Cruzen, Christina L.
Iaci, Jennifer F.
Caggiano, Anthony O.
Blight, Andrew R.
Haenzi, Barbara
Huie, J. Russell
Havton, Leif A.
Nout-Lomas, Yvette S.
Fawcett, James W.
Ferguson, Adam R.
Beattie, Michael S.
Bresnahan, Jacqueline C.
Tuszynski, Mark H.
author_sort Rosenzweig, Ephron S.
collection PubMed
description Inhibitory extracellular matrices form around mature neurons as perineuronal nets containing chondroitin sulfate proteoglycans (CSPGs) that limit axonal sprouting after CNS injury. The enzyme chondroitinase (Chase) degrades the inhibitory CSPGs and improves axonal sprouting and functional recovery after spinal cord injury (SCI) in rodents. We evaluated the effects of Chase in Rhesus monkeys that had undergone C7 spinal cord hemisection. Four weeks after hemisection, multiple intraparenchymal Chase injections targeted spinal cord circuits controlling hand function below the lesion. Hand function improved significantly in Chase-treated monkeys relative to vehicle-injected controls. Moreover, Chase significantly increased corticospinal axon growth and the number of synapses formed by corticospinal terminals in gray matter caudal to the lesion. No detrimental effects were detected. This approach appears to merit clinical translation in SCI.
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spelling pubmed-66936792019-12-24 Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury Rosenzweig, Ephron S. Salegio, Ernesto A. Liang, Justine J. Weber, Janet L. Weinholtz, Chase A. Brock, John H. Moseanko, Rod Hawbecker, Stephanie Pender, Roger Cruzen, Christina L. Iaci, Jennifer F. Caggiano, Anthony O. Blight, Andrew R. Haenzi, Barbara Huie, J. Russell Havton, Leif A. Nout-Lomas, Yvette S. Fawcett, James W. Ferguson, Adam R. Beattie, Michael S. Bresnahan, Jacqueline C. Tuszynski, Mark H. Nat Neurosci Article Inhibitory extracellular matrices form around mature neurons as perineuronal nets containing chondroitin sulfate proteoglycans (CSPGs) that limit axonal sprouting after CNS injury. The enzyme chondroitinase (Chase) degrades the inhibitory CSPGs and improves axonal sprouting and functional recovery after spinal cord injury (SCI) in rodents. We evaluated the effects of Chase in Rhesus monkeys that had undergone C7 spinal cord hemisection. Four weeks after hemisection, multiple intraparenchymal Chase injections targeted spinal cord circuits controlling hand function below the lesion. Hand function improved significantly in Chase-treated monkeys relative to vehicle-injected controls. Moreover, Chase significantly increased corticospinal axon growth and the number of synapses formed by corticospinal terminals in gray matter caudal to the lesion. No detrimental effects were detected. This approach appears to merit clinical translation in SCI. 2019-06-24 2019-08 /pmc/articles/PMC6693679/ /pubmed/31235933 http://dx.doi.org/10.1038/s41593-019-0424-1 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Rosenzweig, Ephron S.
Salegio, Ernesto A.
Liang, Justine J.
Weber, Janet L.
Weinholtz, Chase A.
Brock, John H.
Moseanko, Rod
Hawbecker, Stephanie
Pender, Roger
Cruzen, Christina L.
Iaci, Jennifer F.
Caggiano, Anthony O.
Blight, Andrew R.
Haenzi, Barbara
Huie, J. Russell
Havton, Leif A.
Nout-Lomas, Yvette S.
Fawcett, James W.
Ferguson, Adam R.
Beattie, Michael S.
Bresnahan, Jacqueline C.
Tuszynski, Mark H.
Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury
title Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury
title_full Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury
title_fullStr Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury
title_full_unstemmed Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury
title_short Chondroitinase Improves Anatomical and Functional Outcomes After Primate Spinal Cord Injury
title_sort chondroitinase improves anatomical and functional outcomes after primate spinal cord injury
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6693679/
https://www.ncbi.nlm.nih.gov/pubmed/31235933
http://dx.doi.org/10.1038/s41593-019-0424-1
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