J Cell Biol. 2025 Dec 01. pii: e202505064. [Epub ahead of print]224(12):
Peiyao Fan,
Rui Ji,
Yiling Wen,
Yaping Dang,
Yong Li,
Xiaojie Yan,
Murong Li,
Qiaoxia Zheng,
Yifan Ge,
Pengli Zheng,
Yang Chen.
Migrating cells form retraction fibers (RFs) at their trailing edge, where migrasomes, ranging from 0.5 to 3 μm, grow at the tips or intersections of RF. Migrasomes play crucial roles when released extracellularly, but before release, they remain physically connected to cell body via RFs, facilitating long-range signal transmission. Since many signaling molecules are highly localized, the mechanism of long-range signal transmission has not been fully understood. Here, we demonstrated that tubular ER extended into RFs and localized to migrasomes, which depended on microtubule-regulated ER extension. Tubular ER adhered to migrasome biogenesis site through ER-plasma membrane contact sites (ER-PM MCSs). Notably, tubular ER functions as cholesterol and calcium reservoir, facilitating the transfer of cholesterol and calcium to migrasomes, potentially at ER-PM MCSs that promoted membrane expansion, stability, and localized secretion of migrasome. Our findings revealed a novel dynamic of tubular ER and provided a new mechanism for long-range site-specific calcium and cholesterol transmission through RFs and migrasomes in migrating cells.