We have previously shown that mouse L.P3 cells secrete fibronectin and a novel protein, gelatin-non-binding and heparin-binding cell-adhesive protein (GNCP). Here, we screened and characterized cell-adhesive proteins in the conditioned media (CM's) of a series of cell lines growing in a protein- and lipid-free synthetic medium (P3 cell lines). Although cell-attachment activity of the CM's ranged from undetectable to highly significant, fractionation with affinity columns revealed the presence of significant cell-attachment activity in all CM's. Using cell-attachment assay and immunoassay on blotted filters, various cell-adhesive proteins were detected in the CM's, and most of them were identified as fibronectin, laminin, vitronectin, and collagen. GNCP-like proteins were detected in the CM's of HeLa.P3, JTC-16.P3, L.P3, and JTC-12.P3. There was no relationship between the origin of the cell lines and the cell-adhesive proteins secreted. GNCP purified from L.P3-CM was separated into 120-, 140-, 150-, and 160-kDa proteins on SDS-PAGE, which were judged to be a type of mouse type I procollagen from the following results: (1) they were digested by collagenase, (2) pepsin treatment converted the 150- and 160-kDa proteins into 120- and 140-kDa proteins, (3) they were recognized by anti-type I collagen antiserum, and (4) amino-terminal sequence of the pepsin-digested 140-kDa protein had significant homology with type I collagen. GNCP showed half-maximum activity of cell attachment at 0.03 micrograms/ml, indicating that GNCP was a cell-adhesive protein with an extremely high specific activity compared to other known cell-adhesive proteins.