Fred J. Roisen scite author profile

It has been established that the adult mouse forebrain contains multipotential (neuronal/glial) progenitor cells that can be induced to proliferate in vitro when epidermal growth factor is provided. These cells are found within the subventricular zone of the lateral ventricles, together with other progenitor cell populations, whose requirements for proliferation remain undefined. Using basic fibroblast growth factor (bFGF), we have isolated multipotential progenitors from adult mouse striatum. These progenitors proliferate and can differentiate into cells displaying the antigenic properties of astrocytes, oligodendrocytes, and neurons. The neuron-like cells possess neuronal features, exhibit neuronal electrophysiological properties, and are immunoreactive for GABA, substance P, choline acetyl-transferase, and glutamate. Clonal analysis confirmed the multipotency of these bFGF-dependent cells. Most significantly, subcloning experiments demonstrated that they were capable of self- renewal, which led to a progressive increase in population size over serial passaging. These results demonstrate that bFGF is mitogenic for multipotential cells from adult mammalian forebrain that possess stem cell properties.

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Adult human olfactory stem cells

Roisen

et al. 2001

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The location of stem cells within the adult CNS makes them impractical for surgical removal and autologous transplantation. Their limited availability and histocompatibility issues further restrict their use. In contrast, olfactory neuroepithelium (ONe) located in the nasal passageways has a continuous regenerative capability and can be biopsied readily. To investigate the potential of human ONe to provide viable populations of pluripotent cells, ONe was harvested from cadavers 6-18 h postmortem, dissociated, plated and fed every 3-4 days. Heterogeneous populations of neurons, glia, and epithelia were identified with lineage-specific markers. After several weeks, 5-10% of the cultures produced a population of rapidly dividing cells, which in turn, produced neurospheres containing at least two subpopulations based on neuronal and glial specific antigens. Most contained one or more neuronal markers; a few were positive for A2B5 and/or GFAP. To determine if growth modulators would affect the neurosphere forming cells, they were exposed to dibutyryl-cAMP. The nucleotide reduced cell division and increased process formation. Although the cells had been passaged more than 70 times, their viability remained constant as shown by the MTT viability index. Donor age or sex were not limiting factors, because neurospheres have been established from cadavers of both sexes from 50 to 95 years old at time of death. The ex vivo expansion of these cells will provide a patient-specific population of cells for immunological, genetic and pharmacological evaluation. Our long-term goal is to determine the utility of these cells to facilitate CNS repair.

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Ganglioside Stimulation of Axonal Sprouting in Vitro

Roisen

Bartfeld

Nagele

et al. 1981

Science

379

102

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Bovine brain gangliosides were applied to primary and established neuronal cultures to examine the role of gangliosides in neuronal development. Media containing gangliosides enhanced the degree of axonal elongation exhibited by sensory ganglia neurons and increased the length and number of Neuro-2a neuroblastoma cell processes. Ganglioside-supplemented media caused a twofold increase in ornithine decarboxylase activity in both culture systems. These experiments suggest that gangliosides function as acceptor molecules for growth-promoting substances in embryonic and tumor-derived neurons.

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Neurotrophins regulate proliferation and survival of two microglial cell lines in vitro

Zhang

Geula

et al. 2003

Experimental Neurology

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Fred J. Roisen

Multipotential stem cells from the adult mouse brain proliferate and self-renew in response to basic fibroblast growth factor

Adult human olfactory stem cells

Ganglioside Stimulation of Axonal Sprouting in Vitro

Neurotrophins regulate proliferation and survival of two microglial cell lines in vitro

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