Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury

Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury

Abstract In this study, GFP-MSCs were topically applied to the surface of cerebral cortex within 1 hour of experimental TBI. No treatment was given to the control group. Three days after topical application, the MSCs homed to the injured parenchyma and improved the neurological function. Topical MSC...

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Main Authors: Ping K. Lam, Kevin K. W. Wang, Anthony W. I. Lo, Cindy S. W. Tong, Don W. C. Ching, Kenneth Wong, Zhihui Yang, Themis Kong, Kin K. Y. Lo, Richard K. W. Choy, Paul B. S. Lai, George K. C. Wong, Wai S. Poon
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-01772-7
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spelling doaj-fb1e4c4f80be4a91b599f10cc86a1c7f2020-12-08T02:00:14ZengNature Publishing GroupScientific Reports2045-23222017-07-017111310.1038/s41598-017-01772-7Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injuryPing K. Lam0Kevin K. W. Wang1Anthony W. I. Lo2Cindy S. W. Tong3Don W. C. Ching4Kenneth Wong5Zhihui Yang6Themis Kong7Kin K. Y. Lo8Richard K. W. Choy9Paul B. S. Lai10George K. C. Wong11Wai S. Poon12Department of Surgery, The Chinese University of Hong KongProgram for Neurotrauma, Neuroproteomics & Biomarkers Research, Departments of Psychiatry, McKnight Brain Institute, University of FloridaDepartment of Anatomical & Cellular Pathology, The Chinese University of Hong KongDepartment of Surgery, The Chinese University of Hong KongDepartment of Surgery, The Chinese University of Hong KongDepartment of Obstetrics and Gynecology, The Chinese University of Hong KongProgram for Neurotrauma, Neuroproteomics & Biomarkers Research, Departments of Psychiatry, McKnight Brain Institute, University of FloridaDepartment of Surgery, The Chinese University of Hong KongDepartment of Surgery, The Chinese University of Hong KongDepartment of Obstetrics and Gynecology, The Chinese University of Hong KongDepartment of Surgery, The Chinese University of Hong KongDepartment of Surgery, The Chinese University of Hong KongDepartment of Surgery, The Chinese University of Hong KongAbstract In this study, GFP-MSCs were topically applied to the surface of cerebral cortex within 1 hour of experimental TBI. No treatment was given to the control group. Three days after topical application, the MSCs homed to the injured parenchyma and improved the neurological function. Topical MSCs triggered earlier astrocytosis and reactive microglia. TBI penumbra and hippocampus had higher cellular proliferation. Apoptosis was suppressed at hippocampus at 1 week and reduced neuronal damaged was found in the penumbral at day 14 apoptosis. Proteolytic neuronal injury biomarkers (alphaII-spectrin breakdown products, SBDPs) and glial cell injury biomarker, glial fibrillary acidic protein (GFAP)-breakdown product (GBDPs) in injured cortex were also attenuated by MSCs. In the penumbra, six genes related to axongenesis (Erbb2); growth factors (Artn, Ptn); cytokine (IL3); cell cycle (Hdac4); and notch signaling (Hes1) were up-regulated three days after MSC transplant. Transcriptome analysis demonstrated that 7,943 genes were differentially expressed and 94 signaling pathways were activated in the topical MSCs transplanted onto the cortex of brain injured rats with TBI. In conclusion, topical application offers a direct and efficient delivery of MSCs to the brain.https://doi.org/10.1038/s41598-017-01772-7
collection DOAJ
language English
format Article
sources DOAJ
author Ping K. Lam
Kevin K. W. Wang
Anthony W. I. Lo
Cindy S. W. Tong
Don W. C. Ching
Kenneth Wong
Zhihui Yang
Themis Kong
Kin K. Y. Lo
Richard K. W. Choy
Paul B. S. Lai
George K. C. Wong
Wai S. Poon
spellingShingle Ping K. Lam
Kevin K. W. Wang
Anthony W. I. Lo
Cindy S. W. Tong
Don W. C. Ching
Kenneth Wong
Zhihui Yang
Themis Kong
Kin K. Y. Lo
Richard K. W. Choy
Paul B. S. Lai
George K. C. Wong
Wai S. Poon
Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
Scientific Reports
author_facet Ping K. Lam
Kevin K. W. Wang
Anthony W. I. Lo
Cindy S. W. Tong
Don W. C. Ching
Kenneth Wong
Zhihui Yang
Themis Kong
Kin K. Y. Lo
Richard K. W. Choy
Paul B. S. Lai
George K. C. Wong
Wai S. Poon
author_sort Ping K. Lam
title Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
title_short Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
title_full Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
title_fullStr Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
title_full_unstemmed Interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
title_sort interactome and reciprocal activation of pathways in topical mesenchymal stem cells and the recipient cerebral cortex following traumatic brain injury
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract In this study, GFP-MSCs were topically applied to the surface of cerebral cortex within 1 hour of experimental TBI. No treatment was given to the control group. Three days after topical application, the MSCs homed to the injured parenchyma and improved the neurological function. Topical MSCs triggered earlier astrocytosis and reactive microglia. TBI penumbra and hippocampus had higher cellular proliferation. Apoptosis was suppressed at hippocampus at 1 week and reduced neuronal damaged was found in the penumbral at day 14 apoptosis. Proteolytic neuronal injury biomarkers (alphaII-spectrin breakdown products, SBDPs) and glial cell injury biomarker, glial fibrillary acidic protein (GFAP)-breakdown product (GBDPs) in injured cortex were also attenuated by MSCs. In the penumbra, six genes related to axongenesis (Erbb2); growth factors (Artn, Ptn); cytokine (IL3); cell cycle (Hdac4); and notch signaling (Hes1) were up-regulated three days after MSC transplant. Transcriptome analysis demonstrated that 7,943 genes were differentially expressed and 94 signaling pathways were activated in the topical MSCs transplanted onto the cortex of brain injured rats with TBI. In conclusion, topical application offers a direct and efficient delivery of MSCs to the brain.
url https://doi.org/10.1038/s41598-017-01772-7
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