Lipid flippase dysfunction as a therapeutic target for endosomal anomalies in Alzheimer's disease

Endosomal anomalies because of vesicular traffic impairment have been indicated as an early pathology of Alzheimer'vertical bar disease (AD). However, the mechanisms and therapeutic targets remain unclear. We previously reported thatbCTF, one of the pathogenic metabolites of APP, interacts with TMEM30A. TMEM30A constitutes a lipid flippase with P4-ATPase and regulates vesicular trafficking through the asymmetric distribution of phospholipids. Therefore, the alteration of lipid flippase activity in AD pathology has got attention. Herein, we showed that the interaction between beta CTF and TMEM30A suppresses the physiological formation and activity of lipid flippase in AD model cells, A7, and App(NLG-F/NLG-F) model mice. Furthermore, the T-RAP peptide derived from the beta CTF binding site of TMEM30A improved endosomal anomalies, which could be a result of the restored lipid flippase activity. Our results provide insights into the mechanisms of vesicular traffic impairment and suggest a therapeutic target for AD.

Automated summary

This study investigates the pathological mechanisms of vesicular traffic impairment in Alzheimer's disease and proposes a therapeutic target for AD.