Identification of molecular markers for thyroid cancer by cDNA microarrays

Thyroid diseases are very common and are usually benign. The causal relationships among the different types of disease, as well as their molecular aspects, are not well understood. The goiter (hyperplasia), for instance, is described by some as related to papillary carcinoma (a malignant tumor), while others say there is no causal relationship between the two diseases. The most defying question, however, concerns the distinction between adenoma (benign tumor) and follicular carcinoma, which is currently made only after surgery, not allowing distinct treatments for the two kinds of tumor. This work aimed to identify differentially expressed genes among normal thyroid tissue, goiter, adenoma and papillary carcinoma using microarrays. Follicular carcinomas were not included due to the reduced number and size of the samples. Two kinds of array were used: arrays in nylon membranes, with 213 clones isolated from thyroid samples by differential display (DDRT-PCR); and glass slide arrays containing 3800 ORESTES clones.Experiments using the first type of array identified three differentially expressed genes, whose expression was analyzed by RT-PCR in 10 samples of each kind of tissue. Two of these genes were able to differentiate papillary carcinomas from goiters and normal tissues with precisions of 89% for the malignant tumor and 80% for the non-malignant tissues. Glass slide arrays were used to evaluate gene expression profile of approximately 10 samples of each type of thyroid tissue. 160 clones differentially expressed between any two tissues were identified, and their sequences were determined and compared with databases. Among the most interesting genes are Na/K ATPase gene, whose expression is reduced in carcinomas compared to normal tissues and adenomas, the gene corresponding to PDCD4 protein, involved in program cell death, with elevated expression in adenomas and normal tissues than carcinomas and goiters, and the genes of calgizzarin (S100A11) and α1-antitrypsin, both more active in carcinomas than the other tissues. All these genes have already been described as differentially expressed in at least one type of human cancer. This work led to the standardization of glass slide microarray technology in our laboratory, and to the identification of genes that may clarify the alterations involved in the formation of goiter, adenoma and follicular carcinoma. The implementation of mRNA amplification technique in our laboratory allowed the utilization of 10 samples of follicular carcinoma, whose mass was insufficient for microarray hybridizations. These samples will be hybridized along with 10 samples of adenomas, with microarrays containing 4800 known human genes to search for differentially expressed genes, of great diagnostic interest. (AU)