Multipotent CNS Stem Cells Are Present in the Adult Mammalian Spinal Cord and Ventricular Neuroaxis

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Volume 16, Number 23, Issue of December 1, 1996 pp. 7599-7609
Copyright ©1996 Society for Neuroscience

Multipotent CNS Stem Cells Are Present in the Adult Mammalian Spinal Cord and Ventricular Neuroaxis

Received May 10, 1996; revised Aug. 16, 1996; accepted Sept. 10, 1996.
Samuel Weiss¹, Christine Dunne¹, Jennifer Hewson¹, Cheryl Wohl¹, Matt Wheatley¹, Alan C. Peterson², and Brent A. Reynolds¹
¹ Neuroscience Research Group, Departments of Anatomy and Pharmacology and Therapeutics, University of Calgary Faculty of Medicine, Calgary, Alberta, Canada T2N 4N1, and ² Division of Experimental Medicine and Department of Neurology and Neurosurgery, Faculty of Medicine, McGill University, Molecular Oncology Group, H5-35, Royal Victoria Hospital, Montreal, Quebec, Canada H3A 1A1
Neural stem cells in the lateral ventricles of the adult mouse CNS participate in repopulation of forebrain structures invivo and are amenable to in vitro expansion by epidermal growthfactor (EGF). There have been no reports of stem cells in morecaudal brain regions or in the spinal cord of adult mammals. Inthis study we found that although ineffective alone, EGF and basicfibroblast growth factor (bFGF) cooperated to induce the proliferation,self-renewal, and expansion of neural stem cells isolated fromthe adult mouse thoracic spinal cord. The proliferating stem cells,in both primary culture and secondary expanded clones, formedspheres of undifferentiated cells that were induced to differentiateinto neurons, astrocytes, and oligodendrocytes. Neural stem cells,whose proliferation was dependent on EGF+bFGF, were also isolatedfrom the lumbar/sacral segment of the spinal cord as well as thethird and fourth ventricles (but not adjacent brain parenchyma).Although all of the stem cells examined were similarly multipotentand expandable, quantitative analyses demonstrated that the lateralventricles (EGF-dependent) and lumbar/sacral spinal cord (EGF+bFGF-dependent)yielded the greatest number of these cells. Thus, the spinal cordand the entire ventricular neuroaxis of the adult mammalian CNScontain multipotent stem cells, present at variable frequencyand with unique in vitro activation requirements.

Key words: stem cells; spinal cord; ventricles; renewal; multipotent; epidermal growth factor; basic fibroblast growth factor

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