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Stem Cell Dynamics in an Experimental Model of Stroke

We investigated the migration of endogenous neural stem cells (NSCs) toward an infarct lesion in a photo-thrombotic stroke model. The lesions produced by using rose bengal dye (20 mg/kg) with cold light in the motor cortex of Sprague-Dawley rats were also evaluated with sequential magnetic resonance...

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Autores principales: Lee, Min-Cheol, Jin, Chun-Yan, Kim, Hyung-Seok, Kim, Jae-Hyu, Kim, Myeong-Kyu, Kim, Hyoung-Ihl, Lee, Young-Jin, Son, Young-Jun, Kim, Young-Ok, Woo, Young-Jong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Chonnam National University Medical School 2011
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3214868/
https://www.ncbi.nlm.nih.gov/pubmed/22111067
http://dx.doi.org/10.4068/cmj.2011.47.2.90
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author Lee, Min-Cheol
Jin, Chun-Yan
Kim, Hyung-Seok
Kim, Jae-Hyu
Kim, Myeong-Kyu
Kim, Hyoung-Ihl
Lee, Young-Jin
Son, Young-Jun
Kim, Young-Ok
Woo, Young-Jong
author_facet Lee, Min-Cheol
Jin, Chun-Yan
Kim, Hyung-Seok
Kim, Jae-Hyu
Kim, Myeong-Kyu
Kim, Hyoung-Ihl
Lee, Young-Jin
Son, Young-Jun
Kim, Young-Ok
Woo, Young-Jong
author_sort Lee, Min-Cheol
collection PubMed
description We investigated the migration of endogenous neural stem cells (NSCs) toward an infarct lesion in a photo-thrombotic stroke model. The lesions produced by using rose bengal dye (20 mg/kg) with cold light in the motor cortex of Sprague-Dawley rats were also evaluated with sequential magnetic resonance imaging (MRI) from 30 minutes through 8 weeks. Migration of NSCs was identified by immunohistochemistry for nestin monoclonal antibody in the lesion cortex, subventricular zone (SVZ), and corpus callosum (CC). The contrast to noncontrast ratio (CNR) on MRI was greatest at 12 hours in DWI and decreased over time. By contrast, T1-weighted and T2-weighted images showed a constant CNR from the beginning through 8 weeks. MRI of the lesional cortex correlated with histopathologic findings, which could be divided into three stages: acute (edema and necrosis) within 24 hours, subacute (acute and chronic inflammatory cell infiltration) at 2 to 7 days, and chronic (gliofibrosis) at 2 to 4 weeks. The volume of the infarct was significantly reduced by reparative gliofibrosis. The number of nestin(+) NSCs in the contralateral SVZ was similar to that of the ipsilateral SVZ in each group. However, the number of nestin(+) NSCs in the ipsilateral cortex and CC increased at 12 hours to 3 days compared with the contralateral side (p<0.01) and was reduced significantly by 7 days (p<0.01). Active emigration of internal NSCs from the SVZ toward the infarct lesion may also contribute to decreased volume of the infarct lesion, but the self-repair mechanism by endogenous NSCs is insufficient to treat stroke causing extensive neuronal death. Further studies should be focused on amplification technologies of NSCs to enhance the collection of endogenous or transplanted NSCs for the treatment of stroke.
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spelling pubmed-32148682011-11-22 Stem Cell Dynamics in an Experimental Model of Stroke Lee, Min-Cheol Jin, Chun-Yan Kim, Hyung-Seok Kim, Jae-Hyu Kim, Myeong-Kyu Kim, Hyoung-Ihl Lee, Young-Jin Son, Young-Jun Kim, Young-Ok Woo, Young-Jong Chonnam Med J Original Article We investigated the migration of endogenous neural stem cells (NSCs) toward an infarct lesion in a photo-thrombotic stroke model. The lesions produced by using rose bengal dye (20 mg/kg) with cold light in the motor cortex of Sprague-Dawley rats were also evaluated with sequential magnetic resonance imaging (MRI) from 30 minutes through 8 weeks. Migration of NSCs was identified by immunohistochemistry for nestin monoclonal antibody in the lesion cortex, subventricular zone (SVZ), and corpus callosum (CC). The contrast to noncontrast ratio (CNR) on MRI was greatest at 12 hours in DWI and decreased over time. By contrast, T1-weighted and T2-weighted images showed a constant CNR from the beginning through 8 weeks. MRI of the lesional cortex correlated with histopathologic findings, which could be divided into three stages: acute (edema and necrosis) within 24 hours, subacute (acute and chronic inflammatory cell infiltration) at 2 to 7 days, and chronic (gliofibrosis) at 2 to 4 weeks. The volume of the infarct was significantly reduced by reparative gliofibrosis. The number of nestin(+) NSCs in the contralateral SVZ was similar to that of the ipsilateral SVZ in each group. However, the number of nestin(+) NSCs in the ipsilateral cortex and CC increased at 12 hours to 3 days compared with the contralateral side (p<0.01) and was reduced significantly by 7 days (p<0.01). Active emigration of internal NSCs from the SVZ toward the infarct lesion may also contribute to decreased volume of the infarct lesion, but the self-repair mechanism by endogenous NSCs is insufficient to treat stroke causing extensive neuronal death. Further studies should be focused on amplification technologies of NSCs to enhance the collection of endogenous or transplanted NSCs for the treatment of stroke. Chonnam National University Medical School 2011-08 2011-08-31 /pmc/articles/PMC3214868/ /pubmed/22111067 http://dx.doi.org/10.4068/cmj.2011.47.2.90 Text en © Chonnam Medical Journal, 2011 http://creativecommons.org/licenses/by-nc/3.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Article
Lee, Min-Cheol
Jin, Chun-Yan
Kim, Hyung-Seok
Kim, Jae-Hyu
Kim, Myeong-Kyu
Kim, Hyoung-Ihl
Lee, Young-Jin
Son, Young-Jun
Kim, Young-Ok
Woo, Young-Jong
Stem Cell Dynamics in an Experimental Model of Stroke
title Stem Cell Dynamics in an Experimental Model of Stroke
title_full Stem Cell Dynamics in an Experimental Model of Stroke
title_fullStr Stem Cell Dynamics in an Experimental Model of Stroke
title_full_unstemmed Stem Cell Dynamics in an Experimental Model of Stroke
title_short Stem Cell Dynamics in an Experimental Model of Stroke
title_sort stem cell dynamics in an experimental model of stroke
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3214868/
https://www.ncbi.nlm.nih.gov/pubmed/22111067
http://dx.doi.org/10.4068/cmj.2011.47.2.90
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