Apollon/Bruce is upregulated by Humanin.

Humanin, a short bioactive peptide, inhibits a variety of cell deaths. Humanin-mediated inhibition of neuronal cell death, caused by an Alzheimer's disease (AD)-linked mutant gene occurs via binding of Humanin to its heterotrimeric Humanin receptor (htHNR), which results in the activation of the Janus-associated kinases (JAKs) and signal transducer and activator and transcription 3 signaling pathway. A previous study demonstrated that the Humanin-induced activation of the signaling pathway leads to increased expression of SH3 domain-binding protein 5 (SH3BP5), which is an essential effector of Humanin's anti-cell death activity in some cultured neuronal cells. However, it remains unknown whether SH3BP5 is the sole effector of the Humanin signaling pathway via Here we show that the Humanin signaling pathway via increased the expression levels of mRNA and protein of Apollon/Bruce, an unusual member of the inhibitors of apoptosis proteins, and that overexpression of Apollon/Bruce inhibits neuronal death, caused by a London-type familial AD-linked mutant (V642I) of amyloid β precursor protein. Overall, the results indicate that expression of Apollon/Bruce is upregulated by Humanin, and Apollon/Bruce could be an effector of Humanin in a context-dependent manner.

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