Abstract
Melanoma lesions that develop in the same patient at different times or simultaneously at different locations may differ antigenically, because malignant melanoma is heterogeneous in terms of its biological, immunological and metastatic properties. The objective of this study was to characterize the molecular profiles of melanoma cells in peripheral blood, lymph nodes and metastatic tissues, employing the messenger RNA (mRNA) expression of tyrosinase, melanoma-inhibiting activity (MIA) and melanoma antigen recognized by T cells-1 (MART-1) as markers. Samples of cells propagated from metastatic sites were obtained from 17 stage III/IV melanoma patients and assayed by reverse transcriptase-polymerase chain reaction (RT-PCR), using specific primers for each marker. In eight patients, marker profiles were analysed in simultaneously obtained specimens of peripheral blood, lymph nodes and metastatic tissues originating from the same patient. Tyrosinase, MIA and MART-1 were expressed in 59%, 76% and 76% of the metastases, respectively. Simultaneously obtained specimens of peripheral blood, lymph nodes and metastatic tissues showed a high degree of homogeneity: 60%, 75% and 20% for tyrosinase, MIA and MART-1, respectively. Our findings suggest that the rather homogeneous expression pattern found in different tumour sites analysed in the same patient is of potential prognostic and therapeutic importance. Furthermore, melanoma lesions may be negative for the expression of antigens such as MART-1, and discrepancies in expression patterns between peripheral blood and metastatic tissues may occur, especially for this marker. Finally, our findings support the notion that molecular screening using an RT-PCR approach is appropriate in this kind of investigation.
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