OBJECTIVE: To clarify the invasion mechanism of laryngeal carcinoma (HEp-2) cells. DESIGN: Human HEp-2 cells were cultured on a collagen gel containing fibroblasts and/or fat cells. The HEp-2 cells were also treated with air exposure as the local environment of the laryngeal epithelial mucosa. A collagen gel invasion assay was conducted under these culture conditions. RESULTS: No invasion of HEp-2 cells was found in the stromal cell-free collagen gel, but a slight invasion was observed in the fibroblast-embedded gel. A deeper invasion of HEp-2 cells occurred in the fibroblast- and fat cell-coembedded gel and in the fibroblast-embedded gel with air exposure. The most extensive invasion of HEp-2 cells was observed under the fibroblast- and fat cell-coembedded gel in combination with air exposure. CONCLUSIONS: Fat cells and air exposure clearly increase the invasive effect of fibroblasts in squamous cell carcinoma of the larynx. The combined effect of these 3 factors (ie, fat cells, fibroblasts, and air exposure) plays a very important role in the invasive growth of the carcinoma cells. This observation suggests that both tumor cell-stromal cell interaction and tumor cell-local environmental factor interaction should be taken into account in an investigation of the invasive and proliferative mechanisms of laryngeal carcinoma.
OBJECTIVE: To clarify the invasion mechanism of laryngeal carcinoma (HEp-2) cells. DESIGN:Human HEp-2 cells were cultured on a collagen gel containing fibroblasts and/or fat cells. The HEp-2 cells were also treated with air exposure as the local environment of the laryngeal epithelial mucosa. A collagen gel invasion assay was conducted under these culture conditions. RESULTS: No invasion of HEp-2 cells was found in the stromal cell-free collagen gel, but a slight invasion was observed in the fibroblast-embedded gel. A deeper invasion of HEp-2 cells occurred in the fibroblast- and fat cell-coembedded gel and in the fibroblast-embedded gel with air exposure. The most extensive invasion of HEp-2 cells was observed under the fibroblast- and fat cell-coembedded gel in combination with air exposure. CONCLUSIONS: Fat cells and air exposure clearly increase the invasive effect of fibroblasts in squamous cell carcinoma of the larynx. The combined effect of these 3 factors (ie, fat cells, fibroblasts, and air exposure) plays a very important role in the invasive growth of the carcinoma cells. This observation suggests that both tumor cell-stromal cell interaction and tumor cell-local environmental factor interaction should be taken into account in an investigation of the invasive and proliferative mechanisms of laryngeal carcinoma.