Rat peritoneal cells were made to bind five particle species: immunoglobulin-coated Sheep red cells, glutaraldehyde-treated Sheep red cells, latex beads, leishmania and tumor cells. The dependence of binding on various physico-chemical parameters was studied. The binding of latex beads or Leishmania was not inhibited by cold (4 degrees C), sodium azide, cytochalasin B and ethyleneglycol or dimethylsulphoxide. The binding of immunoglobulin-coated Sheep red cells was unaffected by cold and azide, but it was inhibited by cytochalasin B, ethyleneglycol and dimethylsulphoxide. The binding of glutaraldehyde-treated Sheep red cells was inhibited by cold, azide and ethyleneglycol, but it resisted cytochalasin B and dimethylsulphoxide. The binding of tumor cells was inhibited by azide, cytochalasin B, ethyleneglycol and dimethylsulphoxide. It is concluded that: (a) macrophages are endowed several sets of non-specific binding structures that are differently affected by physico-chemical parameters, which provides a simple way of characterizing them; (b) the expression of a given binding structure on the macrophage membrane is modulated by metabolic inhibitors; (c) some lymphocytes were able to bind tumor cells or Leishmania. Thus, lymphocytes and macrophages might share some non-specific adhesive structures.