β-Amyloid-Induced Neurotoxicity of a Hybrid Septal Cell Line Associated with Increased Tau Phosphorylation and Expression of β-Amyloid Precursor Protein

Abstract: Recent evidence suggests that β-amyloid peptide (β-AP) may induce tau protein phosphorylation, resulting in loss of microtubule binding capacity and formation of paired helical filaments. The mechanism by which β-AP increases tau phosphorylation, however, is unclear. Using a hybrid septal cell line, SN56, we demonstrate that aggregated β-AP_1–40 treatment caused cell injury. Accompanying the cell injury, the levels of phosphorylated tau as well as total tau were enhanced as detected immunochemically by AT8, PHF-1, Tau-1, and Tau-5 antibodies. Alkaline phosphatase treatment abolished AT8 and PHF-1 immunoreactivity, confirming that the tau phosphorylation sites were at least at Ser^199/202 and Ser³⁹⁶. In association with the increase in tau phosphorylation, the immunoreactivity of cell-associated and secreted β-amyloid precursor protein (β-APP) was markedly elevated. Application of antisense oligonucleotide to β-APP reduced expression of β-APP and immunoreactivity of phosphorylated tau. Control peptide β-AP_1–28 did not produce significant effects on tau phosphorylation, although it slightly increased cell-associated β-APP. These results suggest that βAP_1–40-induced tau phosphorylation may be associated with increased β-APP expression in degenerated neurons.