Clas B. Johansson scite author profile

New neurons are continuously added in specific regions of the adult mammalian central nervous system. These neurons are derived from multipotent stem cells whose identity has been enigmatic. In this work, we present evidence that ependymal cells are neural stem cells. Ependymal cells give rise to a rapidly proliferating cell type that generates neurons that migrate to the olfactory bulb. In response to spinal cord injury, ependymal cell proliferation increases dramatically to generate migratory cells that differentiate to astrocytes and participate in scar formation. These data demonstrate that ependymal cells are neural stem cells and identify a novel process in the response to central nervous system injury.

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Generalized Potential of Adult Neural Stem Cells

Clarke

Johansson

Wilbertz

et al. 2000

Science

939

538

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The differentiation potential of stem cells in tissues of the adult has been thought to be limited to cell lineages present in the organ from which they were derived, but there is evidence that some stem cells may have a broader differentiation repertoire. We show here that neural stem cells from the adult mouse brain can contribute to the formation of chimeric chick and mouse embryos and give rise to cells of all germ layers. This demonstrates that an adult neural stem cell has a very broad developmental capacity and may potentially be used to generate a variety of cell types for transplantation in different diseases.

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Evidence for neurogenesis in the adult mammalian substantia nigra

Zhao

Momma

Delfani

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

528

411

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New neurons are generated from stem cells in a few regions of the adult mammalian brain. Here we provide evidence for the generation of dopaminergic projection neurons of the type that are lost in Parkinson's disease from stem cells in the adult rodent brain and show that the rate of neurogenesis is increased after a lesion. The number of new neurons generated under physiological conditions in substantia nigra pars compacta was found to be several orders of magnitude smaller than in the granular cell layer of the dentate gyrus of the hippocampus. However, if the rate of neuronal turnover is constant, the entire population of dopaminergic neurons in substantia nigra could be replaced during the lifespan of a mouse. These data indicate that neurogenesis in the adult brain is more widespread than previously thought and may have implications for our understanding of the pathogenesis and treatment of neurodegenerative disorders such as Parkinson's disease.

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Stable reprogrammed heterokaryons form spontaneously in Purkinje neurons after bone marrow transplant

et al. 2003

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Heterokaryons are the product of cell fusion without subsequent nuclear or chromosome loss. Decades of research using Sendai-virus or polyethylene glycol (PEG)-mediated fusion in tissue culture showed that the terminally differentiated state of a cell could be altered. But whether stable non-dividing heterokaryons could occur in animals has remained unclear. Here, we show that green fluorescent protein (GFP)-positive bone-marrow-derived cells (BMDCs) contribute to adult mouse Purkinje neurons through cell fusion. The formation of heterokaryons increases in a linear manner over 1.5 years and seems to be stable. The dominant Purkinje neurons caused the BMDC nuclei within the resulting heterokaryons to enlarge, exhibit dispersed chromatin and activate a Purkinje neuron-specific transgene, L7-GFP. The observed reprogrammed heterokaryons that form in brain may provide insights into gene regulation associated with cell-fate plasticity.

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Clas B. Johansson

Identification of a Neural Stem Cell in the Adult Mammalian Central Nervous System

Generalized Potential of Adult Neural Stem Cells

Evidence for neurogenesis in the adult mammalian substantia nigra

Stable reprogrammed heterokaryons form spontaneously in Purkinje neurons after bone marrow transplant

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