The present study aimed to develop an assay system capable of directly examining the adhesion of cells to each cell-binding site on fibronectin (FN) and to investigate molecular mechanisms underlying the pre-B cell-FN interaction. Treatment of culture plates with 3-(2-pyridyldithio) propionic acid N-hydroxysuccinimide ester and subsequently with dithiothreitol (DTT) allowed the plates to adsorb DTT-treated extracellular matrix (ECM) proteins as well as synthetic peptides containing cysteine at the N-terminal. These treatments produced culture plates coated with ECM proteins or peptides corresponding to its cell-binding sequences, i.e. three sites on FN termed RGDS, LDVP, and RGDV. Pre-B cells exhibited potent adhesiveness to FN-coated plates. Its FN binding was most efficiently inhibited by adding a combination of free forms of RGDS, LDVP, and RGDV peptides, indicating the involvement of these three cell-binding sites in the pre-B cell-FN interaction. In accordance with this, pre-B cells exhibited considerable and potent binding to the respective RGDS-, LDVP-, or RGDV-coated plates. Such binding was specific for the peptide used for coating, because each binding to a given peptide-coated plate was inhibited only by addition of a homologous free peptide. This assay system further demonstrated that the pre-B cell binding to RGDS was mediated by the alpha 5 and alpha v integrins, whereas the binding to LDVP and RGDV was mediated by the alpha 4 integrin. It was also shown that LDVP binding was inhibited by LDVP but not by RGDV and, likewise, RGDV binding was inhibited by RGDV but not by LDVP.2+ interaction involving complex molecular mechanisms.