[Possible mechanisms of A beta(1-40)- or A beta(1-42)-induced cell death and their rescue factors].

Amyloidbetapeptide (A beta) is implicated in neuronal cell death in Alzheimer's disease, but the molecular mechanisms are still unclear. We analyzed its mechanism and found several potential rescue factors against A beta-mediated apoptosis. A beta(1-40) stimulated phosphorylation of tau and JNK and induced cell death in SH-SY5Y cells. The cell death was inhibited by insulin-like growth factor-1, suggesting that the JNK pathway may be involved in A beta(1-40)-induced cytotoxicity. Using the human fetus brain cDNA library-targeted differential display technique, a new gene BF5-1 (32aa) was found as a rescue factor against A beta(1-40). BF5-1 has partially the same amino acid sequences as those of the C-terminus of cytochrome c oxidase subunit VIIb (COX-VIIb). COX-VIIb mRNA is increased in AD brains and its overexpression in cells enhanced A beta(1-40)-toxicity. These data suggest that BF5-1 may act as a dominant negative mutant of COX-VIIb. A beta(1-42) also induced cell death in rat neuroblastoma B104 cells, which was abolished by addition of IL-11. By cDNA subtraction analysis in the cell death, the enhanced expression of L-phosphoserine phosphatase was found, but this was also abolished by IL-11. The glutamate neurotoxicity was stimulated in the presence of D-serine, suggesting that NMDA receptors may be involved in A beta(1-42)-induced cytotoxicity. A beta(1-42) also induced increase of a new gene p18A beta rP (p18-amyloid-beta-responsive protein; 166 aa) mRNA expression; overexpression of this gene in PC12 cells induced cell death. By the application of a death trap method, a new gene, p60TRP (p60-Transcription-Regulating-Protein; rat:539 aa, human:547aa), was found as a potential rescue factor against the cell death by p18A beta rP. Thus, our cell death systems and/or new rescue proteins may provide suitable tools for the establishment of drug screening systems leading to the identification of new low-molecular candidates applicable for the treatment of AD.