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The Journal of Neuroscience, December 1, 1998, 18(23):9800-9811
Differentiation of Oligodendroglial Progenitors Derived from
Cortical Multipotent Cells Requires Extrinsic Signals Including
Activation of gp130/LIF Receptors
Ronen
Marmur2,
John A.
Kessler1, 2,
Gaofa
Zhu1,
Solen
Gokhan1, 2, and
Mark F.
Mehler1, 2, 3
Departments of 1 Neurology, 2 Neuroscience,
and 3 Psychiatry and the Rose F. Kennedy Center for
Research in Mental Retardation and Developmental Disabilities, Albert
Einstein College of Medicine, Bronx, New York 10461
We have previously isolated epidermal growth factor
(EGF)-responsive multipotent progenitor cells from the early postnatal rodent cerebral cortex independent of generative zones. In this study
we have examined the mechanisms regulating the generation of
differentiated oligodendrocytes (OLs) from these multipotent cells.
Although cultures of primary cortical OL progenitor cells propagated at
clonal density spontaneously gave rise to differentiated OLs in defined
medium, cultures of multipotent progenitors isolated from identical
regions supported the elaboration of OL progenitors but not
differentiated OLs. These observations indicate that the terminal
maturation of OL progenitors derived from multipotent cells is
dependent on signals present within the cellular environment. Application of cytokines such as basic fibroblast growth factor (bFGF),
platelet-derived growth factor (PDGF), or neurotrophin 3 (NT3) to
clonal density cultures of cortical multipotent progenitors increased
the proportion of OL progenitors but failed to support the generation
of differentiated OLs. By contrast, application of factors that
activate gp130/leukemia inhibitory factor  (LIF) heterodimeric
receptors, such as ciliary neurotrophic factor (CNTF), activated signal
transducers and activators of transcription-3 in these OL
progenitor cells and promoted the generation of differentiated OLs.
Clonal analysis also demonstrated that CNTF directly targets OL
progenitors derived from the multipotent cells. These observations suggest that two distinct progenitor cell pathways contribute to the
generation of differentiated OLs during postnatal cortical gliogenesis.
Although oligodendroglial maturation of classical OL progenitor cells
is driven by cell autonomous mechanisms, our findings demonstrate that
the generation of differentiated OLs from cortical multipotent
progenitor cells is dependent on environmental cues, including
activation of gp130/LIF receptors.
Key words:
oligodendrocytes; epidermal growth factor; cortical
multipotent progenitor cells; receptor signaling; cytokines; environmental regulation
Copyright © 1998 Society for Neuroscience 0270-6474/98/18239800-12$05.00/0
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