Interaction of amyloid beta with humanin and acetylcholinesterase is modulated by ATP.

Humanin (HN) is known to bind amyloid beta (Aß)-inducing cytoprotective effects, while binding of acetylcholinesterase (AChE) to Aß increases its aggregation and cytotoxicity. Previously, we showed that binding of HN to Aß blocks aggregation induced by AChE and that HN decreases but does not abolish Aß-AChE interactions in A549 cell media. Here, we set out to shed light on factors that modulate the interactions of Aß with HN and AChE. We found that binding of either HN or AChE to Aß is not affected by heparan sulfate, while ATP, thought to reduce misfolding of Aß, weakened interactions between AChE and Aß but strengthened those between Aß and HN. Using media from either A549 or H1299 lung cancer cells, we observed that more HN was bound to Aß upon addition of ATP, while levels of AChE in a complex with Aß were decreased by ATP addition to A549 cell media. Exogenous addition of ATP to either A549 or H1299 cell media increased interactions of endogenous HN with Aß to a comparable extent despite differences in AChE expression in the two cell lines, and this was correlated with decreased binding of exogenously added HN to Aß. Treatment with exogenous ATP had no effect on cell viability under all conditions examined. Exogenously added ATP did not affect viability of cells treated with AChE-immunodepleted media, and there was no apparent protection against the cytotoxicity resulting from immunodepletion of HN. Moreover, exogenously added ATP had no effect on the relative abundance of oligomer versus total Aß in either cell line.

Biochemical determinants of the IGFBP-3-hyaluronan interaction.

IGFBP-3, the most abundant IGFBP and the main carrier of insulin-like growth factor I (IGF-I) in the circulation, can bind IGF-1 with high affinity, which attenuates IGF/IGF-IR interactions, thereby resulting in antiproliferative effects. The C-terminal domain of insulin-like growth factor-binding protein-3 (IGFBP-3) is known to contain an 18-basic amino acid motif capable of interacting with either humanin (HN) or hyaluronan (HA). We previously showed that the 18-amino acid IGFBP-3 peptide is capable of binding either HA or HN with comparable affinities to the full-length IGFBP-3 protein and that IGFBP-3 can compete with the HA receptor, CD44, for binding HA. Blocking the interaction between HA and CD44 reduced viability of A549 human lung cancer cells. In this study, we set out to better characterize IGFBP-3-HA interactions. We show that both stereochemistry and amino acid identity are important determinants of the interaction between the IGFBP-3 peptide and HA and for the peptide's ability to exert its cytotoxic effects. Binding of IGFBP-3 to either HA or HN was unaffected by glycosylation or reduction of IGFBP-3, suggesting that the basic 18-amino acid residue sequence of IGFBP-3 remains accessible for interaction with either HN or HA upon glycosylation or reduction of the full-length protein. Removing N-linked oligosaccharides from CD44 increased its ability to compete with IGFBP-3 for binding HA, while reduction of CD44 rendered the protein relatively ineffective at blocking IGFBP-3-HA interactions. We conclude that both deglycosylation and disulfide bond formation are important for CD44 to compete with IGFBP-3 for binding HA.