Fibroblasts underlying human uterine cervical dysplasia, carcinoma in situ, and invasive carcinoma are agglutinable by concanavalin A (Con A) but not by wheat germ agglutinin, except at very high concentration. Studies with low levels of Con A show that maximal agglutination is obtained with fibroblasts from invasive carcinoma, while the fibroblasts underlying dysplasia give minimal agglutination reactions. Fibroblasts underlying carcinoma in situ give agglutination reactions halfway between those obtained with fibroblasts underlying dysplasia and invasive carcinoma. An epithelial-like cell line obtained from a case of dysplasia shows agglutinability by Con A very similar to that obtained with fibroblasts underlying dysplasia. These epithelial-like cells are also not agglutinable by wheat germ agglutinin. Treatment of the cervical cells, both epithelial and fibroblasts, with neuraminidase leads to slight increase in agglutination by both Con A and wheat germ agglutinin. Marked increase in agglutination is not obtained even after treatment with high concentration of neuraminidase (10 units/10(6) cells). Marked agglutinability, however, is observed after trypsin treatment. The results suggest that, while the fibroblasts obtained from normal cervix are not agglutinable by Con A, surface alterations necessary for Con A-specific agglutination exist in fibroblasts during the early stage of development of uterine cervical epithelial neoplasia (dysplasia) and increase with the progression through carcinoma in situ to invasive carcinoma. Loss of cell surface sialic acids may result in a slight increase in agglutinability, but some other mechanism(s) is likely to be involved in alteration of surface properties that lead to marked agglutinability of the human uterine cervical cells obtained from cancer precursor lesions.