Updated publication reference for PubMed record(s): 34697316. S. aureus is a deadly pathogen due to its abilities to readily develop antibiotic resistance and evade our immune system. Antibiotic resistance in S. aureus is associated with reduced levels of neutrophil recruitment, which is a vital step in triggering an immune response to resolve infection. In this work, we report enhanced antibiotic agents that act as potential dual-function antibiotic-chemoattractants, enabling augmented neutrophil recruitment to S. aureus along with direct killing. Our agents exploit formylated peptides as chemoattractants for neutrophil recruitment, which is combined with the targeted binding of vancomycin to bacteria that generates a chemoattractant gradient for neutrophil recruitment. The combination of in vitro assays, cellular assays, infection-on-a-chip and in vivo mouse models, determined that these antibiotic-chemoattractants improve the recruitment, engulfment and killing of S. aureus by neutrophils. Furthermore, optimizing the fPep sequence can play an important role in the enhancement of neutrophil activity through differential activation of formyl peptide receptors. This offers an alternate approach in antibiotic development to overcome the threat of antibiotic resistance in the clinic.