Healthy skin maintains a diverse microbiome and a potent immune system to fight off infections. Here, we discovered that the epithelial-cell-derived antimicrobial peptides defensins activated orphan G-protein-coupled receptors (GPCRs) Mrgpra2a/b on neutrophils. This signaling axis was required for effective neutrophil-mediated skin immunity and microbiome homeostasis. We generated mutant mouse lines lacking the entire Defensin (Def) gene cluster in keratinocytes or Mrgpra2a/b. Def and Mrgpra2 mutant animals both exhibited skin dysbiosis, with reduced microbial diversity and expansion of Staphylococcus species. Defensins and Mrgpra2 were critical for combating S. aureus infections and the formation of neutrophil abscesses, a hallmark of antibacterial immunity. Activation of Mrgpra2 by defensin triggered neutrophil release of IL-1β and CXCL2 which are vital for proper amplification and propagation of the antibacterial immune response. This study demonstrated the importance of epithelial-neutrophil signaling via the defensin-Mrgpra2 axis in maintaining healthy skin ecology and promoting antibacterial host defense. [Display omitted] • Orphan GPCRs Mrgpra2a/b are defensin receptors in neutrophils • Defensin-Mrgpra2 signaling preserves skin microbiome diversity • Deletion of defensins or Mrgpra2 impairs neutrophil-mediated bacterial clearance • Activation of Mrgpra2 by defensins triggers neutrophils to release IL-1β and CXCL2 Antimicrobial peptides (AMPs) are vital for host defense. Dong et al. discover that keratinocyte-derived defensins activate G-protein-coupled receptors Mrgpra2a/b on neutrophils. This epithelial-neutrophil signaling axis prevents skin dysbiosis and is required for immunity against bacterial infections. [ABSTRACT FROM AUTHOR]