The oligodendrocyte lineage in cerebrum is characterized by the expression of immunologically identified surface antigens resulting in the sequential appearance of three distinct phenotypes, A2B5+O4-, O4+GalC-, and O4+GalC+. In the present study we have placed O4+GalC- progenitors immunopanned from premyelinating rat cerebrum into a basal, defined medium that by itself does not support well either their proliferation or survival. The response of these progenitor cells to platelet-derived growth factor (PDGF) and basic fibroblast growth factor (bFGF) was then examined. The results demonstrate that both PDGF and bFGF stimulated proliferation and short-term survival of newly cultured cells, but that their effect on the course of O4+GalC- differentiation was strikingly different. PDGF delayed postmitotic development by transiently reverting (ED50 = 3 ng/ml) O4+GalC- progenitors to A2B5+O4- preprogenitor-like cells that subsequently differentiated even in the continued presence of PDGF. bFGF restored mitogenic activity of the O4+GalC- progenitors to a saturable level at low doses (ED50 = 1 ng/ml); doses of bFGF > or = 10 ng/ml impaired differentiation of the progenitors into GalC+ cells and were also mitogenic for newly differentiated GalC+ oligodendrocytes. These data imply that bFGF supplants PDGF as a mitogen during lineage progression from A2B5+O4- to O4+GalC- progenitors. Lineage reversion of O4+GalC- cells in response to PDGF is suggested as a mechanism for facilitating remyelination by triggering the proliferative expansion of O4+GalC- progenitor-like cells persisting into adulthood.