RABEP1 amplifies front signaling in neutrophil migration.

Neutrophils are the first responders of our innate immune system, crucial for defense against various infections. The intricate regulation of neutrophil migration is essential for neutrophil function. However, a complete mechanistic understanding is missing. We performed a miRNA overexpression screen and identified miR-190 as a potent suppressor of neutrophil migration in zebrafish. Through a second round of small-scale screening using neutrophil-specific knockouts of putative miR-190 targets, we identified that (Rabaptin-5, RAB GTPase binding effector protein 1) is essential for neutrophil motility and chemotaxis in zebrafish. Re-expressing full-length in the knockout, but not a truncated form lacking the Rab4/Rab5 binding domain, rescued cell motility. Knocking down in human dHL-60 cells consistently reduced cell motility. -deficient dHL-60 cells accumulate excessive members inside the cells. The Rab5 GTP level is unaffected, but the knockdown cells displayed reduced PAK phosphorylation and overall reduced actin polymerization, but still appropriately polarized upon chemokine stimulation. Overexpression of dominant-negative Rab4 or Rab5 similarly inhibits neutrophil migration. Our data suggests that drives endosomal recycling, Rac activation, and leading-edge actin polymerization, providing significant insights into the role of the endocytic pathway in neutrophil motility.