Mobilized Peripheral Blood Cells Administered Intravenously Produce Functional Recovery in Stroke-Reference-Cited by-同舟云学术

Mobilized Peripheral Blood Cells Administered Intravenously Produce Functional Recovery in Stroke

Published:2003-05 Issue:4 Volume:12 Page:449-454
ISSN:0963-6897
Container-title:Cell Transplantation
language:en
Short-container-title:Cell Transplant

Author:

Willing Alison E.¹²³⁴⁵,Vendrame Martina¹⁵,Mallery Jennifer¹²,Cassady C. Jordan¹²,Davis Cyndy D.⁶,Sanchez-Ramos Juan¹⁷,Sanberg Paul R.¹²⁴⁵⁸

Affiliation:

1. Center of Excellence for Aging & Brain Repair, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

2. Departments of Neurosurgery, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

3. Departments of Anatomy, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

4. Departments of Pharmacology and Therapeutics, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

5. Departments of Pathology, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

6. Saneron CCEL Therapeutics, Inc., 13101 Telecom Park, Suite 105, Tampa FL 33617

7. Departments of Neurology, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

8. Psychiatry, University of South Florida College of Medicine, 12901 Bruce B. Downs Blvd, Tampa, FL 33612

Abstract

Filgratism (granulocyte colony stimulating factor, G-CSF)-mobilized peripheral blood progenitor cells (PBPCs) have replaced bone marrow (BM) as a preferred source of autologous stem cells, in light of the faster hematologic recovery and lesser supportive care requirement exhibited by PBPC transplants. Other hematopoietic stem cells, like the human umbilical cord blood-derived stem cells (hUCBs), and nonhematopoietic stem cells have been shown to improve motor function in rodent models of injury and degenerative disease. In the present study we transplanted either G-CSF-mobilized PBPCs or hUCBs in rats 24 h after permanent middle cerebral artery occlusion (MCAO), and assessed their behavioral abnormalities in spontaneous activity and spontaneous motor asymmetry. In both transplanted groups of rats we observed a significant reduction of the stroke-induced hyperactivity compared with nontransplanted, stroked animals. In addition, transplantation of G-CSF PBPC and hUCB cells prevented the development of extensive motor asymmetry. Our findings raise the possibility that PBPCs could provide a novel transplantation therapy to treat stroke.

Publisher

SAGE Publications

Subject

Transplantation,Cell Biology,Biomedical Engineering

Link

http://journals.sagepub.com/doi/pdf/10.3727/000000003108746885

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