Lectin-mediated interaction of erythrocytes and macrophages was brought about in two steps. Step I involved macrophage treatment with lectin, and step II is the incubation of lectin-treated macrophages with mouse erythrocytes. The extent and nature of lectin-mediated macrophage erythrocyte interaction was studied using concanavalin A (ConA), wheat germ (WGA), soybean (SBA) and waxbean (WBA) agglutinins. The parameters affecting the interaction were studied in detail with the first two lectins. Under comparable conditions of lectin interaction with macrophages (step I), WGA mediates rosette formation involving interaction with several times the number of erythrocytes than those interacting with ConA-treated macrophages. The interaction mediated by WGA reaches, at 37 °C, a saturation value after 30 min of step II, whereas that mediated by ConA is still linear and exhibits half the amount of attached erythrocytes at 60 min. ConA-mediated attachment of erythrocytes is highly temperature-dependent being at 37 °C twice that observed at 24 °C. The temperature dependence of attachment is not affected by changes of either ConA concentration (5–40 μg/ml) or the temperature in step I. An optimum is observed, however, when the temperature of incubation in step I ranges between 14–18 °C. WGA-mediated attachment of erythrocytes is markedly less temperature-sensitive, exhibiting 70% of optimal attachment already at 8 °C. Only when the attachment phase follows incubation with a low concentration of WGA (2 μg/ml) high temperature sensitivity is exhibited. At 37 °C, however, the number of attached erythrocytes is the same for macrophages treated with WGA at concentrations of 2, 5, 10 and 40 μg/ml. ConA-mediated erythrocyte-macrophage interaction does not lead to erythrophagocytosis. When mediated by WGA, the attachment step is followed by a temperature-dependent ingestion step, i.e. 10% and 50% of the erythrocytes that attach to macrophages during the 60 min incubation at 24 °C and 37 °C, respectively, are ingested. There is a lag period of 10–20 min between attachment and ingestion implicating involvement of additional cellular processes preceding engulfment. Electron microscope images of areas of interaction of attached erythrocytes with macrophages indicate a significantly tighter binding (a thinner gap at membrane-membrane apposition areas) in the case of WGA-mediated rosette formation as compared with that established in ConA-mediated rosettes. Attachment via WGA is followed by a rapid change in the relative position of the attached erythrocytes on the macrophage, from a primary attachment at the distal peripheral regions of the cell, to a perinuclear position. In contrast, erythrocytes attached via ConA remain at the primary attachment point (at 37 °C) for extended periods. This differential behaviour does not stem from effects of ConA on macrophages, since when yeast cells were attached to ConA treated macrophages, the yeast cells showed the same movement as that exhibited by erythrocyte when attached via WGA. The different interaction patterns of erythrocytes with macrophages coated with ConA and WGA can be fitted into the following working hypothesis: the number of WGA-binding sites on the plasma membrane of macrophages is at least three times that of ConA-binding sites. Stable cell-cell interactions involve multibridge formation at the contact area of the two cells and this involves a delicate balance between number of lectin-receptor conjugates and their aggregation state within the membrane phase. A certain amount of clustering is a prerequisite for attachment, while a high degree of clustering reduces the chance of fruitful interactions. The engulfment step depends on the ability of membrane areas adjacent to primary contact area to establish additional stable bridges in the entire circumference of the attached cell. ConA-receptor conjugates appear to be less abundant and more aggregated within the membrane plane, preventing the completion of fruitful circumferential interaction of the adjacent membrane. WGA-receptor conjugates, being more abundant and apparently less aggregated are available at membrane areas needed for cell enclosure and provide the additional bridging without which engulfment does not take place. Change in relative position of attached erythrocytes seems to be a step in the manifold events occurring from attachment to ingestion.