Mutational activation of pp60(c-src) leads to a tumorigenic phenotype in a preneoplastic Syrian hamster embryo cell line.

Previous studies indicated that overexpression of wild-type avian c-src cannot induce neoplastic transformation of NIH 3T3 cells. In this study, we isolated and characterized novel spontaneously derived transforming mutants of avian pp60(c-src) from a Syrian hamster embryo-derived cell line, 10W, transfected with the avian c-src gene. Seventeen independently derived transfected 10W cell clones were injected into athymic nude mice. After a latency period, tumors eventually arose and were established in culture. The tumorigenic phenotype was always accompanied by the presence of the avian c-src DNA and functional expression of pp60(c-src). However, most of the tumor-derived cell lines expressed an electrophoretically altered form of pp60(c-src), suggesting mutations in src. Consistent with this hypothesis, DNAs isolated from the tumor-derived lines, but not the parental 10W cell lines, morphologically transformed NIH 3T3 cells in a focus-forming assay. We characterized pp60(c-src) in detail from three of the tumor-derived lines: 4AT, 4BT, and E2T. Two of these lines contained mutations within the exogenous c-src coding region. Line 4AT has an internal repeat of 29 amino acids immediately following Gln-513, which disrupts the spacing between the end of the kinase domain and Tyr-527, the negative regulatory site in pp60(c-src). Line 4BT has a 5-bp deletion following Phe-520, which results in loss of Tyr-527. However, the DNA sequence of the coding region of pp60(c-src) from a third line, E2T, was completely wild type. Cyanogen bromide cleavage analyses of the altered pp60(c-src) from lines 4AT and 4BT showed that Tyr-527, the site of negative regulation of c-src, is not phosphorylated, but Tyr-416, the site of in vitro autophosphorylation, is phosphorylated. However, in line E2T, Tyr-527 was phosphorylated, and Tyr-416 was phosphorylated to a lesser extent. Additionally, two proteins that indicate activation of src, p85 cortactin and p120(cas), are phosphorylated in at least six of the tumor-derived cell lines, although to a lesser extent in line E2T. These results suggest that dephosphorylation of Tyr-527 and phosphorylation of Tyr-416 correlate with activation of pp60(c-src) in the tumor-derived lines 4AT and 4BT, respectively. However, in line E2T, the high levels of pp60(c-src), in combination with a partial activation of the pp60(c-src) protein as indicated by phosphorylation of Tyr-416, appear to be involved in the neoplastic process, rather than mutation.

Oncogene amplification in squamous cell carcinoma of the head and neck.

Cellular oncogenes appear to be involved in the control of normal cell growth and differentiation. The abnormal activation of these genes in naturally occurring and experimentally induced cancers may have an important role in the expression of the malignant phenotype in cancer cells. Mechanisms for the activation of these genes include chromosomal translocation, point mutation, and DNA amplification. The amplification of specific oncogenes correlates with clinical prognosis in several human malignancies, including breast cancer and neuroblastoma. We examined 21 fresh-frozen human squamous cell carcinomas of the aerodigestive tract for amplification of 10 known cellular oncogenes (c-myc, N-myc, L-myc, N-ras, H-ras, K-ras, erb-B, erb-B2, raf, and int-2), using Southern blotting techniques. Eleven of 21 tumors demonstrated a two-fold to 11-fold amplification of the int-2 oncogene, one member of a family of genes related to basic fibroblast growth factor. Amplification of c-myc, a gene that codes for a DNA-binding protein involved in the regulation of cell growth, was seen in two tumors. None of the other eight genes studied were amplified in any of the tumor specimens.