Adenovirus (AdV)-mediated gene expression of immune stimulators represents a valuable in vivo approach for gene therapy of human cancer. The expression level of the therapeutic gene is of crucial importance for the efficacy of this type of treatment. Entry of AdV is dependent on the primary adenovirus receptor CAR and the secondary AdV receptor identified earlier to be a member of the integrin family of surface molecules. We have analyzed 14 different human melanoma cell cultures from different stages together with one melanoma cell line for their AdV-mediated transduction and expression efficiency. Recombinant viruses at various concentrations were used for expression of the B7-1 costimulatory molecule under the control of different promoters and the expression levels of B7-1 were analyzed by flow cytometry. AdV-mediated IL-12 expression was measured using a commercial ELISA. Levels of transgene expression were compared with the expression levels of HCAR, the alpha(v)beta3 and alpha(v)beta5 integrins, and HLA class I. In 4 of 14 cell cultures tested, the presence of the primary virus receptor CAR was associated with the high transduction efficiency phenotype when using the B7-1- and IL-12-expressing viruses at a relatively low multiplicity of infection (MOI) of 50. Immunohistochemistry on cryosections from the original biopsies yielded a strong signal specific for CAR. In contrast, cell cultures expressing low or undetectable levels of CAR needed a 20- to 40-fold higher viral input to show comparable expression level of B7-1 or IL-12. Expression levels of the transgenes hardly varied when using different promoters and no association was observed with the presence or absence of HLA class I molecules or with the expression levels of integrins.
Monoclonal antibody T311 specifically detects tyrosinase protein expression. Tyrosinase-derived peptides are recognized by CD8+ T-cells and applied in immunotherapy. We examined formalin-fixed paraffin-embedded tissue of 50 melanoma (primary n=31, metastatic n=19) and 41 control cases (junctional, dermal, compound, Spitz, Reed, balloon-cell nevi) by immunochemistry using the alkaline phosphatase-anti-alkaline phosphatase method after antigen retrieval. Staining with mAb T311 showed a sensitivity of 94% for melanoma with a very high specificity for melanocytic cells. Immunopositivity (94% of melanomas overall) correlated inversely with clinical stage: clinical stage I and stage II showed 100%, stage III and stage IV 86% immunoreactivity each. Staining changed from an exclusively homogeneous pattern in early stages to a more heterogeneous pattern in later stages. Melanocytic control tissue like nevi of different subtypes all showed weak to moderate, homogeneous immunoreactivity with polarity towards the epidermis. RT-PCR ELISA analysis of short-term melanoma cell cultures displayed mRNA expression in only half of the originally immunopositive tumors only, suggesting rapid mRNA expression loss in culture. mAb T311 allows detection of melanoma-associated tyrosinase protein expression and thus profiling of melanomas using routine archival tissue suited for immunotherapy approaches involving tyrosinase derived epitopes.
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