Identification of Novel Oxindole Compounds That Suppress ER Stress-Induced Cell Death as Chemical Chaperones.

Endoplasmic reticulum (ER) stress and oxidative stress lead to protein misfolding, and the resulting accumulation of protein aggregates is often associated with the pathogenesis of neurodegenerative diseases, including Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis, and prion disease. Small molecules preventing these pathogenic processes may be effective interventions for such neurodegenerative disorders. In this paper, we identify several novel oxindole compounds that can prevent ER stress- and oxidative stress-induced cell death. Among them, derivatives of the lead compound GIF-0726-r in which a hydrogen atom at the oxindole ring 5 position is substituted with a methyl (GIF-0852-r), bromine (GIF-0854-r), or nitro (GIF-0856-r) group potently suppressed global ER stress. Furthermore, GIF-0854-r and -0856-r prevented protein aggregate accumulation in vitro and in cultured hippocampal HT22 neuronal cells, indicating that these two compounds function effectively as chemical chaperones. In addition, GIF-0852-r, -0854-r, and -0856-r prevented glutamate-induced oxytosis and erastin-induced ferroptosis. Collectively, these results suggest that the novel oxindole compounds GIF-0854-r and -0856-r may be useful therapeutics against protein-misfolding diseases as well as valuable research tools for studying the molecular mechanisms of ER and oxidative stress.

Artepillin C, a major component of Brazilian green propolis, inhibits endoplasmic reticulum stress and protein aggregation.

Propolis, a compound produced by honeybees, has long been used in food and beverages to improve health and prevent diseases. We previously reported that the ethanol extracts of Brazilian green propolis and its constituents artepillin C, kaempferide, and kaempferol mitigate oxidative stress-induced cell death via oxytosis/ferroptosis. Here, we investigated the potential of Brazilian green propolis and its constituents to protect against endoplasmic reticulum stress in the mouse hippocampal cell line HT22. Ethanol extracts of Brazilian green propolis, artepillin C, and kaempferol attenuated tunicamycin-induced unfolded protein response and cell death. Interestingly, artepillin C inhibited both tunicamycin-induced protein aggregation in HT22 cells and the spontaneous protein aggregation of mutant canine superoxide dismutase 1 (E40K-SOD1-EGFP) in Neuro2a cells. These findings indicate that in addition to oxidative stress, the ethanol extracts of Brazilian green propolis help prevent endoplasmic reticulum stress-related neuronal cell death, which is proposedly involved in several neurodegenerative diseases. Moreover, artepillin C, a major constituent of Brazilian green propolis, may exhibit chemical chaperone-like properties.