PDGF and intracellular signaling in the timing of oligodendrocyte differentiation.

In the rat optic nerve, bipotential O-2A progenitor cells give rise to oligodendrocytes and type 2 astrocytes on a precise schedule. Previous studies suggest that PDGF plays an important part in timing oligodendrocyte development by stimulating O-2A progenitor cells to proliferate until they become mitotically unresponsive to PDGF, stop dividing, and differentiate automatically into oligodendrocytes. Since the loss of mitotic responsiveness to PDGF has been shown not to be due to a loss of PDGF receptors, we have now examined the possibility that the unresponsiveness results from an uncoupling of these receptors from early intracellular signaling pathways. We show that (a) although PDGF does not stimulate newly formed oligodendrocytes to synthesize DNA, it induces an increase in cytosolic Ca2+ in these cells; (b) a combination of a Ca2+ ionophore plus a phorbol ester mimics the effect of PDGF, both in stimulating O-2A progenitor cell division and in reconstituting the normal timing of oligodendrocyte differentiation in culture; and (c) the same combination of drugs does not stimulate newly formed oligodendrocytes to proliferate, even in the presence of PDGF or dibutyryl cAMP. The most parsimonious explanation for these results is that O-2A progenitor cells become mitotically unresponsive to PDGF because the intracellular signaling pathways from the PDGF receptor to the nucleus are blocked downstream from the receptor and some of the early events that are triggered by receptor activation.

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A role for TGF-beta in oligodendrocyte differentiation.

The Journal of Cell Biology ◽

10.1083/jcb.121.6.1397 ◽

1993 ◽

Vol 121 (6) ◽

pp. 1397-1407 ◽

Cited By ~ 184

Author(s):

R D McKinnon ◽

G Piras ◽

J A Ida ◽

M Dubois-Dalcq

Keyword(s):

Cell Proliferation ◽

Progenitor Cells ◽

Progenitor Cell ◽

Tgf Beta ◽

Oligodendrocyte Differentiation ◽

Progenitor Cell Proliferation ◽

Glial Progenitor Cells ◽

Oligodendrocyte Development ◽

Oligodendrocyte Cultures

Oligodendrocyte-type-2 astrocyte (O-2A) glial progenitor cells undergo a limited number of mitotic divisions in response to PDGF before differentiating into oligodendrocytes, the myelin-forming cell of the CNS. We examined the mechanism limiting O-2A proliferation, and demonstrate that these cells secrete an inhibitor of cell proliferation that can be neutralized with antibodies to TGF-beta. O-2A cells also secrete an inhibitory activity that cannot be neutralized with TGF-beta antibodies. O-2A progenitor cultures express TGF-beta 1 isoform and its transcript, while oligodendrocyte cultures express TGF-beta 1, beta-2, and beta-3 isoforms. Both recombinant TGF-beta 1 and O-2A conditioned medium inhibit the proliferation of O-2A progenitor cells cultured in the presence of PDGF, and this inhibition can be partially neutralized with polyclonal TGF-beta antibodies. Thus, TGF-beta produced by O-2A cells may limit PDGF-driven mitosis and promote oligodendrocyte development. TGF-beta is a less potent inhibitor of O-2A proliferation when these cells are cultured in the presence of bFGF, suggesting that bFGF interferes with TGF-beta signaling. Thus, the production of TGF-beta by cells in the O-2A lineage may account for the distinct effects of PDGF and bFGF on O-2A progenitor cell proliferation. Moreover, our results suggest that TGF-beta may be an important mediator of oligodendrocyte differentiation.

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PDGF receptors on cells of the oligodendrocyte-type-2 astrocyte (O-2A) cell lineage

Development ◽

10.1242/dev.105.3.595 ◽

1989 ◽

Vol 105 (3) ◽

pp. 595-603 ◽

Cited By ~ 6

Author(s):

I.K. Hart ◽

W.D. Richardson ◽

C.H. Heldin ◽

B. Westermark ◽

M.C. Raff

Keyword(s):

Progenitor Cells ◽

Progenitor Cell ◽

Human Fibroblasts ◽

Cell Lineage ◽

Pdgf Receptor ◽

Oligodendrocyte Differentiation ◽

Oligodendrocyte Development

It has been shown previously that cultures of rat optic nerve contain three types of macroglial cells—oligodendrocytes and two types of astrocytes. Type-1 astrocytes develop from their own precursor cells beginning before birth, while oligodendrocytes and type-2 astrocytes develop postnatally from a common bipotential precursor called the O-2A progenitor cell. Proliferating O-2A progenitor cells give rise to postmitotic oligodendrocytes beginning around birth, and to type-2 astrocytes beginning in the second postnatal week. Studies in vitro have suggested that platelet-derived growth factor (PDGF), secreted by type-1 astrocytes, plays an important part in timing oligodendrocyte development: PDGF seems to keep O-2A progenitor cells proliferating until an intrinsic clock in the progenitor cells initiates the process leading to oligodendrocyte differentiation. The clock apparently determines when a progenitor cell becomes unresponsive to PDGF, at which point the cell stops dividing and, as a consequence, automatically differentiates into an oligodendrocyte. Here we have used radiolabelled PDGF to show that O-2A progenitor cells have PDGF receptors, suggesting that these cells respond directly to PDGF. The receptors resemble the type A PDGF receptor previously described on human fibroblasts and are initially retained when progenitor cells stop dividing and develop in vitro into oligodendrocytes. The latter finding indicates that receptor loss is not the reason that progenitor cells initially become mitotically unresponsive to PDGF.

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