COOH-terminal fragment of APP interacts with p62, forms an aggregate, and induces autophagic degradation in Alzheimer’s cell model

Abstract

Alzheimer’s disease is an intractable disease, and the accumulation of amyloid β in the brain is thought to be involved in the onset of the disease. Additionally, abnormal protein accumulation due to autophagic deficiency may also be involved in disease progression. Autophagy involves a mechanism called selective autophagy. However, the relationship between selective autophagy and the amyloid precursor protein (APP) remains unclear. In the present study, we analyzed the interaction between p62, an adapter protein, and an APP-related molecule and found that p62 interacted with the COOH-terminal fragment of APP (C60). When C60 and p62 are overexpressed, aggregates are formed and C60 is degraded by autophagy. These aggregates cannot be easily degraded, even with a reducing agent. We also found that autophagosome- and lysosome marker-positive vesicles were formed in the C60- and p62-expressing cells. Superresolution technology also revealed that p62-C60-positive autophagosomes were formed in the cells. Overall, these results suggest that p62 may bind with C60 to form aggregates and induce autophagy in autophagosomes. These results reveal one of the mechanisms underlying the progression of Alzheimer’s disease, in which selective autophagy may be involved.