Transforming growth factor-? expands progenitor cells of the basal forebrain, but does not promote cholinergic differentiation

Transforming growth factor-␣ (TGF-␣), a member of the epidermal growth factor (EGF) family, binds to the EGF-receptor (EGF-R). The early expression and widespread distribution of TGF-␣ and EGF-R in the developing central nervous system (CNS) suggest that TGF-␣ may play a role in the developing CNS. To study possible effects of TGF-␣ on cholinergic differentiation in the basal forebrain, we cultured septal nuclei with adjacent basal forebrain from embryonic rat brain in the presence and absence of TGF-␣. At the highest dose of TGF-␣ used (100 ng/mL), activity of choline acetyltransferase (ChAT; EC 2.3.1.6) and the number of cholinergic neurons doubled. However, because protein levels tripled, specific ChAT activity actually declined. To determine the mechanism accounting for the increase in ChAT, we labeled dividing precursors present in the cultures with a replication-deficient retrovirus express-ing ␤-galactosidase in the presence and absence of TGF-␣. By staining the cultures for both LacZ and ChAT, we determined that the precursor population expanded in size (individually labeled clones contained more cells), but the percentage of cholinergic neurons present in the clones was unchanged. Therefore, while TGF-␣ expands the precursor pool, it does not promote cholinergic differentiation. Interleukin-9, included to prompt neuronal differentiation, did not by itself increase ChAT activity, nor did it enhance the action of TGF-␣. This was true even when basic fibroblast growth factor was included.