beta-Amyloid1-40 increases expression of beta-amyloid precursor protein in neuronal hybrid cells.

Studies of cell injury and death in Alzheimer's disease have suggested a prominent role for beta-amyloid peptide (beta-AP), a 40-43-amino-acid peptide derived from a larger membrane glycoprotein, beta-amyloid precursor protein (beta-APP). Previous experiments have demonstrated that beta-AP induces cytotoxicity in a neuronal hybrid cell line (MES 23.5) in vitro. Here, we demonstrate that beta-APP mRNA content is increased 3.5-fold in 24 h after treatment with beta-AP1-40. Accompanying beta-AP1-40-induced cell injury, levels of cell-associated beta-APP and a C-terminal intermediate fragment are increased up to 15-fold, and levels of secreted forms of beta-APP and 12- and 4-kDa fragments are also increased. Application of beta-APP antisense oligodeoxynucleotide reduces both cytotoxicity and beta-APP expression. 6-Hydroxydopamine application or glucose deprivation causes extensive cell damage, but they do not increase beta-APP expression. These results suggest a selective positive feedback mechanism whereby beta-AP may induce cytotoxicity and increase levels of potentially neurotrophic as well as amyloidogenic fragments of beta-APP with the net consequence of further neuronal damage.