The present study examined survival- and growth-enhancing effects of cortical cells on basal forebrain cholinergic neurons (BFCNs) in culture and the degree to which endogenous nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), and neurotrophin-3 (NT-3) contribute to those trophic effects. When fetal (17 days of gestation) basal forebrain (BF) cells were grown for 5 days in coculture with cortical neurons, staining for acetylcholinesterase (AChE) showed a threefold increase in the number of BFCNs relative to BF cultures without cortex. Most of these labeled cells also displayed enhanced somatic, dendritic, and axonal growth. Coculturing cortical neurons with BF cells taken from postnatal animals produced similar results but with a somewhat greater degree of morphologic enhancement. Function-neutralizing antibodies to NGF, BDNF, and NT-3 were employed to determine whether they would block the trophic effects of cortical neurons on postnatal BFCNs. Although no significant changes in numbers or morphological features of AChE(+) neurons were observed with treatment with individual antibodies, cocultures treated with a combination of all three antibodies displayed fewer morphologically enhanced AChE(+) cells and more nonenhanced cells; the total number of AChE(+) neurons was not significantly changed. Treatment of pure BF cultures with exogenous NGF, BDNF, and NT-3 increased the number of AChE(+) neurons but did not reproduce the morphologic enhancement of cortical cells on BFCNs. These results suggest that neurotrophins by themselves can increase survival of postnatal BFCNs in culture and may work in concert with other unknown cortically derived factors to enhance BFCN morphologic differentiation. The unidentified cortical factors may also have strong survival-enhancing effects on BFCNs that are independent of the known neurotrophins.
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