We have used chemically cross-linked dimers, trimers, and tetramers of lymphocyte function-associated antigen-3 (LFA-3) to study the role of multivalency in the interaction of the protein with its receptor, CD2. The cross-linked adducts showed enhanced activity in systems where LFA-3 has been shown to (i) block LFA-3/CD2 interactions in a rosetting assay and (ii) provide through the CD2 on peripheral blood lymphocytes a trigger for T-cell proliferation. The level of increase was directly related to the valency state of the multimers. In the rosetting assay, the dimers, trimers, and tetramers, by weight, exhibited 15-, 150-, and 430-fold increases in activity over monomeric LFA-3. In the proliferation assay, the tetramer produced a 6-fold increase in thymidine incorporation at 0.06 micrograms/ml, the trimer was 100 times less active than the tetramer, and the dimer and monomer were inactive. The LFA-3 multimers were generated using a three-step cross-linking chemistry that was targeted at the carbohydrates on LFA-3. With this procedure over 60% of the starting protein was converted into multimers with no effect on function. The cross-linking approach should be applicable to other surface antigens, providing a simple method for analyzing multivalent interactions.