Determination of Adhesive Properties of Variant Metastatic Melanoma Cells to BALB/3T3 Cells and Their Virus-Transformed Derivatives by a Monolayer Attachment Assay 2

Abstract

The hypothesis that abnormalities in intercellular adhesion are a property of metastatic tumors was examined in vitro with B16 melanoma variants that were selected in vivo for increased metastatic behavior. The adhesive characteristics of low (B16-F1), intermediate (B16-F5), and high (B16-F10) metastatic lines were determined by quantitative adhesion assays that measured the rate and degree of attachment of single cells to confluent monolayers of melanoma, BALB/3T3, or virustransformed 3T3 cells. Intercellular adhesions were monitored by loss of single cells from suspension and adherence of intraperitoneally grown ¹²⁵|-5-iodo-2'-deoxyuridine-labeled cells to the monolayers, and were affected by time, temperature, and serum concentration. Although there was little difference in adhesive properties between the untransformed and transformed 313 cell lines, the more metastatic melanoma variants exhibited higher relative rates and extents of homotypic and heterotypic monolayer attachment compared with lower metastatic lines (BI6-FI0>BI6-F5>BI6-F1). The correlation between in vivo and in vitro tumor cell adhesive properties and metastasis was discussed.