Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action

Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action

Despite the high prevalence and devastating outcome, there remain a few options for treatment of ischemic stroke. Currently available treatments are limited by a short time window for treatment and marginal efficacy when used. We have tested a human umbilical cord blood-derived stem cell line that h...

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Main Authors: Laura L. Hocum Stone, Feng Xiao, Jessica Rotschafer, Zhenhong Nan, Mario Juliano, Cyndy D. Sanberg, Paul R. Sanberg, Nicole Kuzmin-Nichols, Andrew Grande, Maxim C-J Cheeran, Walter C. Low Ph.D.
Format: Article
Language:English
Published: SAGE Publishing 2016-08-01
Series:Cell Transplantation
Online Access:https://doi.org/10.3727/096368916X691277
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spelling doaj-0c344bed19f6483f83aa129faf661edf2020-11-25T03:42:55ZengSAGE PublishingCell Transplantation0963-68971555-38922016-08-012510.3727/096368916X691277Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of ActionLaura L. Hocum Stone0Feng Xiao1Jessica Rotschafer2Zhenhong Nan3Mario Juliano4Cyndy D. Sanberg5Paul R. Sanberg6Nicole Kuzmin-Nichols7Andrew Grande8Maxim C-J Cheeran9Walter C. Low Ph.D.10 Department of Neurosurgery, University of Minnesota, Minneapolis, MN, USA Department of Neurosurgery, University of Minnesota, Minneapolis, MN, USA Department of Veterinary Population Medicine, University of Minnesota, Minneapolis, MN, USA Department of Neurosurgery, University of Minnesota, Minneapolis, MN, USA Stem Cell Institute, University of Minnesota, Minneapolis, MN, USA Saneron CCEL Therapeutics Inc., Tampa, FL, USA Center for Aging and Brain Repair, Department of Neurosurgery and Brain Repair, Morsani College of Medicine, University of South Florida, Tampa, FL, USA Saneron CCEL Therapeutics Inc., Tampa, FL, USA Stem Cell Institute, University of Minnesota, Minneapolis, MN, USA Department of Veterinary Population Medicine, University of Minnesota, Minneapolis, MN, USA Stem Cell Institute, University of Minnesota, Minneapolis, MN, USADespite the high prevalence and devastating outcome, there remain a few options for treatment of ischemic stroke. Currently available treatments are limited by a short time window for treatment and marginal efficacy when used. We have tested a human umbilical cord blood-derived stem cell line that has been shown to result in a significant reduction in stroke infarct volume as well as improved functional recovery following stroke in the rat. In the present study we address the mechanism of action and compared the therapeutic efficacy of high- versus low-passage nonhematopoietic umbilical cord blood stem cells (nh-UCBSCs). Using the middle cerebral arterial occlusion (MCAo) model of stroke in Sprague–Dawley rats, we administered nh-UCBSC by intravenous (IV) injection 2 days following stroke induction. These human cells were injected into rats without any immune suppression, and no adverse reactions were detected. Both behavioral and histological analyses have shown that the administration of these cells reduces the infarct volume by 50% as well as improves the functional outcome of these rats following stroke for both high- and low-passaged nh-UCBSCs. Flow cytometry analysis of immune cells present in the brains of normal rats, rats with ischemic brain injury, and ischemic animals with nh-UCBSC treatment confirmed infiltration of macrophages and T cells consequent to ischemia and reduction to normal levels with nh-UCBSC treatment. Flow cytometry also revealed a restoration of normal levels of microglia in the brain following treatment. These data suggest that nh-UCBSCs may act by inhibiting immune cell migration into the brain from the periphery and possibly by inhibition of immune cell activation within the brain. nh-UCBSCs exhibit great potential for treatment of stroke, including the fact that they are associated with an increased therapeutic time window, no known ill-effects, and that they can be expanded to high numbers for, and stored for, treatment.https://doi.org/10.3727/096368916X691277
collection DOAJ
language English
format Article
sources DOAJ
author Laura L. Hocum Stone
Feng Xiao
Jessica Rotschafer
Zhenhong Nan
Mario Juliano
Cyndy D. Sanberg
Paul R. Sanberg
Nicole Kuzmin-Nichols
Andrew Grande
Maxim C-J Cheeran
Walter C. Low Ph.D.
spellingShingle Laura L. Hocum Stone
Feng Xiao
Jessica Rotschafer
Zhenhong Nan
Mario Juliano
Cyndy D. Sanberg
Paul R. Sanberg
Nicole Kuzmin-Nichols
Andrew Grande
Maxim C-J Cheeran
Walter C. Low Ph.D.
Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action
Cell Transplantation
author_facet Laura L. Hocum Stone
Feng Xiao
Jessica Rotschafer
Zhenhong Nan
Mario Juliano
Cyndy D. Sanberg
Paul R. Sanberg
Nicole Kuzmin-Nichols
Andrew Grande
Maxim C-J Cheeran
Walter C. Low Ph.D.
author_sort Laura L. Hocum Stone
title Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action
title_short Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action
title_full Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action
title_fullStr Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action
title_full_unstemmed Amelioration of Ischemic Brain Injury in Rats with Human Umbilical Cord Blood Stem Cells: Mechanisms of Action
title_sort amelioration of ischemic brain injury in rats with human umbilical cord blood stem cells: mechanisms of action
publisher SAGE Publishing
series Cell Transplantation
issn 0963-6897
1555-3892
publishDate 2016-08-01
description Despite the high prevalence and devastating outcome, there remain a few options for treatment of ischemic stroke. Currently available treatments are limited by a short time window for treatment and marginal efficacy when used. We have tested a human umbilical cord blood-derived stem cell line that has been shown to result in a significant reduction in stroke infarct volume as well as improved functional recovery following stroke in the rat. In the present study we address the mechanism of action and compared the therapeutic efficacy of high- versus low-passage nonhematopoietic umbilical cord blood stem cells (nh-UCBSCs). Using the middle cerebral arterial occlusion (MCAo) model of stroke in Sprague–Dawley rats, we administered nh-UCBSC by intravenous (IV) injection 2 days following stroke induction. These human cells were injected into rats without any immune suppression, and no adverse reactions were detected. Both behavioral and histological analyses have shown that the administration of these cells reduces the infarct volume by 50% as well as improves the functional outcome of these rats following stroke for both high- and low-passaged nh-UCBSCs. Flow cytometry analysis of immune cells present in the brains of normal rats, rats with ischemic brain injury, and ischemic animals with nh-UCBSC treatment confirmed infiltration of macrophages and T cells consequent to ischemia and reduction to normal levels with nh-UCBSC treatment. Flow cytometry also revealed a restoration of normal levels of microglia in the brain following treatment. These data suggest that nh-UCBSCs may act by inhibiting immune cell migration into the brain from the periphery and possibly by inhibition of immune cell activation within the brain. nh-UCBSCs exhibit great potential for treatment of stroke, including the fact that they are associated with an increased therapeutic time window, no known ill-effects, and that they can be expanded to high numbers for, and stored for, treatment.
url https://doi.org/10.3727/096368916X691277
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