Aggregated Aβ peptides which cause amyloid deposits, a characteristic of Alzheimer's disease (AD), activate a stress response in the endoplasmic reticulum (ER), known as the unfolded protein response, UPR. Nascent UPR induction helps in reducing ER stress by eliminating accumulated misfolded/aggregated secretory proteins. However, prolonged UPR induction may trigger apoptosis. Here we show that, when expressed in yeast with an NH-terminal secretory signal sequence (ss), the 42-amino acid human Aβ42 (h_Aβ42), but not the mouse/ratAβ42 (m_Aβ42) which reportedly does not misfold/aggregate, induces UPR as monitored via an eGFP reporter. We also show that expression of ss-h_Aβ42, not ss-m_Aβ42, blocks yeast cell growth, with cells expressing ss-h_Aβ42 manifesting distinctive features of apoptosis such as loss of mitochondrial membrane potential, increase in ROS levels and DNA fragmentation. Screening for suppressors of ss-h_Aβ42-activated UPR-eGFP induction, in a computationally-designed 29-compound methoxy-stilbene library, revealed three compounds that reduce >95% of UPR-eGFP induction at 5 μM concentration, with EC values of 40-50 nM. Surprisingly, the compounds also rescue yeast cells from ss-h_Aβ42-mediated apoptosis, with EC-s of 50-60 nM. These results provide direct evidence, probably for the first time, that there is a direct correlation between deactivation of UPR and attenuation of apoptosis.
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