Background: Impaired regulation of apoptosis is known to be associated with the development of various cancers. Fas receptor (APO-1/CD95) binding to its ligand, Fas-ligand (Fas-L), has been shown to trigger apoptosis in various cell types.
Objectives: In this study, we examined CD95 and Fas-L expression on primary and metastatic melanoma cells from patients to investigate a potential correlation between these measures of apoptosis and different disease stages.
Patients and methods: Primary melanoma cells were obtained after surgical resection from 19 patients and metastatic cells from fine-needle aspiration of lymph nodes or palpable subcutaneous lesions in 25 patients. Normal skin cells were obtained at skin biopsy of 10 healthy donors.
Results: Flow cytometric analysis revealed that CD95 and Fas-L expression was detected in all the kinds of cell studied. In whole cell suspensions, CD95 expression was significantly higher (P < 0.0001) in normal skin cells than in melanoma cells, whatever the stage studied. By contrast, we observed an increase in Fas-L expression in melanoma cells compared with normal ones. Subsequently, using a double staining method, we studied these measures on HMB45+ cells, a specific marker for melanoma cells, and found that CD95 expression was significantly higher (P = 0.0005) in primary than in metastatic cells while Fas-L expression was significantly increased (P = 0. 0004) in metastatic compared with primary cells. Furthermore, a relationship was found between CD95 or Fas-L expression and Breslow thickness; as primary melanoma thickness progressively increased, the percentage of HMB45+ CD95+ cells decreased while that of HMB45+ Fas-L+ cells concurrently increased.
Conclusions: These results suggest that downregulation of CD95 and upregulation of Fas-L in melanoma might be considered as concomitant with disease progression.