Oncogene
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To investigate the mechanisms of radiation-induced neoplastic conversion, DNA from X-ray transformed human epidermal keratinocytes (RHEK-1) was used in sequential cycles of NIH3T3 transfection followed by nude mice tumorigenicity assays. NIH3T3-derived transformants retained discrete DNA fragments hybridizing to human alu probes. Four clones were isolated from a cosmid library prepared from one of these transformants (49-7G) using human DNA as the probe. ⋯ Nucleotide sequence analyses of cDNA clones isolated from a 49-7G library with a human trk probe revealed that the cloned sequences resulted from the fusion between 5' sequences from the human beta-1,4-galactosyltransferase gene, which encodes a membrane protein involved in cell-cell and cell-matrix interactions, and 3' sequences from the human trk proto-oncogene. The 76 kDa protein product of the chimeric gene, designated bgt-trk, has been identified in NIH3T3 cells transfected with cosmid 19/2 or with bgt-trk cDNA expression constructs, and its phosphorylation in tyrosine has been found to increase when the transfected cells were seeded on plates coated with ECM components which also elicited foci formation in NIH3T3 transformation assays. The fusion of the trk tyrosine kinase domain to a cell adhesion molecule may explain the ECM dependence for the expression of the full transforming potential of the resulting oncogene product.
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Germline p53 mutations are frequently observed in the normal DNA of cancer-prone patients with Li-Fraumeni syndrome (LFS). Fibroblasts from LFS patients develop chromosomal aberrations, loss of cell cycle control, and spontaneous immortalization. We transfected four different mutant p53 genes into human skin fibroblasts from normal donors with two copies of wild-type p53 (p53(wt/wt)). ⋯ Because the supF gene is not in the same region of the shuttle vector as the T-antigen gene it appears that second, independent gene deletions are frequent when replicative errors in supF occur in cells with a mutant p53. We conclude, therefore, that p53(wt/mut) LFS cells contain an activity that promotes mutations. Such an activity, which is likely to be due to the p53(mut), could result in the high rate of chromosomal instability and allelic loss of the wild-type p53 observed as these cells spontaneously immortalize.
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RET rearrangement was studied in papillary thyroid carcinomas (PTC) of children exposed to radioactive fallout in Belarus after the Chernobyl accident. To detect RET rearrangement in small tissue samples from thyroidectomy specimen (12 PTC of children; 2 PTC and 1 follicular carcinoma of adults; non-tumorous thyroid tissue of 4 children and 4 adults as controls), a RT-multiplex PCR was developed using primers suited to amplify fragments in different quantities depending on the presence or absence of RET rearrangements in the tissues. The type of rearrangement was determined by RT-PCR and direct sequencing using primers for ret/PTC1, 2 and 3. ⋯ All RET rearrangement-positive tumors had lymph node metastasis while half of the tumors with wild-type cRET had not. More than half of the cases with ret/PTC3 expressed not only the ELE/RET transcript as expected, but also the RET/ELE transcript. Intrachromosomal rearrangement involving RET and the adjacent H4 or ELE gene on chromosome no. 10 is a very frequent event in thyroid cancer of children of the Chernobyl-contaminated zone of Belarus.
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Approximately 30% of human breast and ovarian cancers have amplification and/or overexpression of HER-2/neu gene which encodes a cell surface growth-factor receptor. Overexpression of this receptor, p185HER-2/neu, is associated with poor outcome and may predict clinical response to chemotherapy. Antibodies to HER-2/neu receptor have a cytostatic effect in suppressing growth of cells with overexpression of p185HER-2/neu. ⋯ Treatment with cisplatin led to a marked, dose-dependent increase in unscheduled DNA synthesis which was significantly reduced by combined treatment with antireceptor antibody in HER-2/neu-overexpressing cells. Therapy with antibody to HER-2/neu receptor also led to a 35-40% reduction in repair of cisplatin-DNA adducts after cisplatin exposure and, as a result, promoted drug-induced killing in target cells. This phenomenon which we term receptor-enhanced chemosensitivity may provide a rationale for more selective targeting and exploitation of overexpressed growth factor receptors in cancer cells, thus leading to new strategies for clinical intervention.