Evaluation of oncogene amplification in intact and truncated cell nuclei of gastro-esophageal cancer cell lines by DNA in situ hybridisation.

Adenocarcinoma arising around the gastro-esophageal junction (GEJ) is a highly malignant form of cancer. Its incidence is rising sharply. The study of oncogenes in these carcinomas may give information concerning treatment and prognosis. In the present study, the fluorescence in situ hybridisation (FISH) technique was optimised for genetic characterisation of oncogenes in archival cancer specimens. Three cell lines derived from GEJ adenocarcinomas were investigated, i.e. JROECL 19, JROECL 33 and OACM5.1C, both in fresh and paraffin-embedded preparations. Furthermore, paraffin-embedded material of three xenografts was studied, i.e. JROECL 19, JROECL 33, and OACM4.1X. We focussed on the oncogenes MYC and HER2/neu, since they are frequently involved in intestinal cancers. Firstly, our results indicate that it is feasible to detect oncogene-specific probes with the FISH technique in formalin-fixed, paraffin-embedded material. Secondly, it appeared that the optimal section thickness for analysis was 2 microm. This thickness resulted in minimal nuclear overlap, which facilitates counting of FISH spots. Due to the truncation phenomenon, however, the sensitivity of the technique is less than FISH on intact nuclei. Importantly, (high level) oncogene amplifications were easily recognised in 2 microm thick sections. Finally, counting of the individual copy number of the MYC and HER2/neu oncogenes was feasible enabling an arbitrary assessment of low- and high-level amplification. In conclusion, FISH is an accurate technique for detecting amplification of oncogenes in paraffin-embedded patient material.