We have obtained four monoclonal antibodies, IB4, OKM1, OKM9, and OKM10, all directed against the C3bi receptor of human monocytes and macrophages (M phi). Two criteria were used to determine the specificity of these antibodies. First, culture surfaces coated with the antireceptor antibodies caused specific down modulation of C3bi receptor activity on M phi adherent to these substrates. Second, receptor protein purified by using IB4 or OKM1 retained the ability to bind selectively to C3bi-coated erythrocytes. Each of the antibodies recognizes a distinct epitope on the C3bi receptor; they do not compete with one another for binding to monocytes. Further, when immobilized on a solid support, each of the antibodies binds a molecule from M phi lysates that can simultaneously bind one of the other monoclonal anti-C3bi receptor antibodies. OKM10 binds and masks the ligand-binding site of the C3bi receptor, while IB4, OKM1, and OKM9 bind to sites remote from the C3bi binding site. All four antibodies immunoprecipitated polypeptides of Mr 185,000 and 105,000 from 125I-surface-labeled M phi. IB4 also precipitates polypeptides of Mr 185,000, 153,000, and 105,000. We conclude that the C3bi receptor of human M phi is a complex composed of two polypeptides, Mr 185,000 and 105,000. We have identified monoclonal antibodies reacting with four distinct antigenic determinants of this complex. The determinant recognized by antibody OKM10 is at or near the ligand-binding site of the receptor. The determinant recognized by antibody IB4 is shared by at least two other leukocyte surface proteins.