Acidic fibroblast growth factor (aFGF) or transforming growth factor-alpha (TGF-alpha), in addition to being mitogenic, induce individual scattering of NBT-II rat bladder carcinoma cell clusters on tissue culture dishes, suggesting that they may contribute to tumor cell dissemination. To assay their scattering potential and their effect on cell invasiveness in a more complex and physiologically relevant model, we analyzed the behavior of NBT-II spheroids confronted with urinary bladder in organotypic cultures. NBT-II spheroids progressively replaced the urothelium at the site of contact with the bladder explant. In the absence of aFGF or TGF-alpha, inserted cells grew in a pattern suggestive of local hyperplasia, with occasional invasive cell protrusions. Exogenous scattering growth factors elicited a more rapid appearance of these protrusions, which were also more numerous. NBT-II cells transfected with cDNA constructs bearing the gene of aFGF, TGF-alpha or the oncogene hst/KFGF were also used. After exogenous or autocrine stimulation of NBT-II cells with the growth factors, a deeper penetration of the bladder wall in the form of nodular outgrowths and clusters of infiltrating cells was always observed. Altogether these observations suggest that the stimulation of NBT-II clusters by scattering/growth factors can promote cell shedding and amplify invasiveness in the complex extracellular environment of bladder tissues.