Resident peritoneal macrophages (PEMs) express SIGNR1 on the cell surface as a major mannose receptor. These cells also ingest oligomannose-coated liposomes (OMLs) in an oligomannose-dependent manner following intraperitoneal administration. Therefore, the current study was conducted to investigate the possible role of SIGNR1 in capture of OMLs. Transient expression of several SIGN-related lectins potentially expressed on PEMs in CHO cells revealed that only SIGNR1 contributed to capture of OMLs. When SIGNR1 was introduced into mouse macrophage-like RAW264.7 cells, SIGNR1-expressing RAW (RAW-SIGNR1) cells recognized OMLs under serum-free conditions. OML recognition by RAW-SIGNR1 cells as well as that by PEMs was partially inhibited by an anti-SIGNR1 antibody (ER-TR9) and by mannan, and completely inhibited by EDTA. Interestingly, OML recognition by RAW-SIGNR1 cells was accelerated in the presence of serum, partially inhibited by an anti-complement receptor 3 (CR3) antibody (M1/70), and almost completely inhibited by a combination of ER-TR9 and M1/70. Complete inhibition of OML ingestion by the combination of ER-TR9 and M1/70 was also observed under serum-free conditions, suggesting that SIGNR1 and CR3 cooperate in an additive way in capture of OMLs by macrophage-like RAW cells. Administration of ER-TR9 or M1/70 into the peritoneal cavity led to a significant decrease of OML uptake by PEMs. Therefore, SIGNR1 expressed on macrophages acts as a receptor for recognition of OMLs under physiological conditions.