Iron promotes α‐synuclein aggregation and transmission by inhibiting TFEB TFEB ‐mediated autophagosome‐lysosome fusion

摘要

Abstract Recent studies have strongly shown that cell‐to‐cell transmission of neuropathogenic proteins is a common mechanism for the development of neurodegenerative diseases. However, the underlying cause is complex and little is known. Although distinct processes are involved in the pathogenesis of various diseases, they all share the common feature of iron accumulation, an attribute that is particularly prominent in synucleinopathies. However, whether iron is a cofactor in facilitating the spread of α‐synuclein remains unclear. Here, we constructed a cell‐to‐cell transmission model of α‐synuclein using SN 4741 cell line based on adenovirus vectors. Cells were treated with FeCl 2, and α‐synuclein aggregation and transmission were then evaluated. In addition, the possible mechanisms were investigated through gene knockdown or over‐expression. Our results demonstrated that iron promoted α‐synuclein aggregation and transmission by inhibiting autophagosome‐lysosome fusion. Furthermore, iron decreased the expression of nuclear transcription factor EB ( TFEB ), a master transcriptional regulator of autophagosome‐lysosome fusion, and inhibited its nuclear translocation through activating AKT / mTORC 1 signaling. After silencing TFEB , ratios of α‐synuclein aggregation and transmission were not significantly altered by the presence of iron; on the other hand, when TFEB was over‐expressed, the transmission of α‐synuclein induced by iron was obviously reversed; suggesting the mechanism by which iron promotes α‐synuclein transmission may be mediated by TFEB . Taken together, our data reveal a previously unknown relationship between iron and α‐synuclein, and identify TFEB as not only a potential target for preventing α‐synuclein transmission, but also a critical factor for iron‐induced α‐synuclein aggregation and transmission. Indeed, this newly discovered role of iron and TFEB in synucleinopathies may provide novel targets for developing therapeutic strategies to prevent α‐synuclein transmission in Parkinson's disease.