During serial passage of the colorectal carcinoma cell line SW1116 in athymic nude mice, we selected 2 variants that metastasized to the lungs and liver. The metastatic capacity of these in vivo variant cell lines was associated with their ability to (1) grow under growth-factor-deprived conditions, (2) invade and transgress a reconstructed basement membrane with high effectiveness, and (3) produce higher activities of the substrate-degrading enzymes collagenase and plasminogen activator as compared to parental cells. To assess the relative contribution of growth-factor-independence and high levels of invasiveness/motility to the metastatic phenotype, variants of 6 colorectal carcinomas were selected in vitro by adaptation to a growth-factor-free culture medium followed by selection of highly invasive cells in chemoinvasion assays. Four out of 6 cell lines selected for growth-factor-independence showed significantly higher levels of invasiveness through reconstructed membranes, suggesting co-segregation of growth-factor-independence and high levels of invasiveness in vitro. Using an in vitro chemoinvasion assay, 2 poorly and 1 highly invasive cell line were further selected for invasiveness. After 6 selection passages, all cell lines were highly invasive and showed high motility rates. However, when injected s.c. into athymic nude mice to test their metastatic capacity in vivo, double-selected variant cell lines did not form spontaneous metastases. Our results indicate that growth-factor-independence and high levels of invasiveness, although associated with the metastatic phenotype, are not sufficient for experimental metastasis formation of colorectal carcinoma cells in vivo.