1. DNA methylation state of the galectin-3 gene represents a potential new marker of thyroid malignancy
- Author
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Simona Keller, Giancarlo Troncone, Tiziana Angrisano, Lorenzo Chiariotti, Francesca Lembo, Ermanno Florio, Mario Capasso, Raffaela Pero, Miriam Decaussin-Petrucci, Alfredo Fusco, Keller, Simona, Angrisano, Tiziana, Florio, E, Pero, Raffaela, Decaussin Petrucci, M, Troncone, Giancarlo, Capasso, Mario, Lembo, Francesca, Fusco, Alfredo, and Chiariotti, Lorenzo
- Subjects
"epigenetics" ,endocrine system ,Cancer Research ,Pathology ,medicine.medical_specialty ,DNA methylation ,endocrine system diseases ,Thyroid ,human thyroid cancer ,Cancer ,Articles ,Methylation ,Biology ,medicine.disease ,Molecular medicine ,medicine.anatomical_structure ,Oncology ,CpG site ,galectin-3 ,tumor marker ,medicine ,thyroid cancer ,Thyroid cancer ,Tumor marker - Abstract
In order to supplement the cytopathological assessment of thyroid tumors, there is a need for new markers to correctly diagnose malignant thyroid lesions and avoid unnecessary and potentially harmful therapies for patients. The immunohistochemical expression of galectin-3 is currently considered to be the most accurate stand-alone marker for thyroid cancer diagnosis. The aim of this study was to establish whether the methylation state of the galectin-3 gene is a candidate molecular marker for thyroid malignancy. Thyroid specimens from 50 patients were analyzed, including 5 normal thyroid, 3 goiters, 39 papillary and 3 anaplastic thyroid carcinoma cases. High-resolution methylation analyses was performed to investigate the methylation state of a large genomic region (from −89 to +408) encompassing the galectin-3 transcriptional start site. Within this region, 5 CpG sites (nucleotide positions +134, +137, +142, +147 and +156) were observed to be differentially methylated among the samples and were further analyzed by the quantitative pyrosequencing technique. The hypomethylation of the +134, +137, +142, +147 and +156 CpG sites was observed to be markedly associated with cancer. Although the methylation degree of each single site was highly variable in non-neoplastic tissues, the average methylation state of the 5 CpG sites clearly distinguished cancer from the nonneoplastic thyroid tissues.
- Published
- 2013