OBJECTIVES: To characterize the localization of galectin-3 in benign and malignant thyroid neoplasms and to correlate this with alterations in beta-catenin and cyclin D1 expression. DESIGN: Immunohistochemical study of 116 paraffin-embedded archival specimens from 113 patients who had undergone thyroidectomy and tissue placed into a commercially available tissue microarray. SETTING: Tertiary care hospital. INTERVENTIONS: Thyroid tissue microarrays were stained by standard immunohistochemical protocols with monoclonal antibodies against galectin-3, beta-catenin, and cyclin D1. MAIN OUTCOME MEASURES: Nuclear and cytoplasmic expression of galectin-3 was correlated with clinical parameters, beta-catenin, and cyclin D1 expression. RESULTS: Both cytoplasmic (56%) and nuclear (42%) galectin-3 expression was observed in most malignant neoplasms but was absent in benign thyroid specimens (P<.001). Among carcinomas, cytoplasmic galectin-3 expression was observed in papillary thyroid carcinomas (82%) and follicular (33%) and medullary (9%) carcinomas but was absent in anaplastic carcinomas (P<.001). Galectin-3 nuclear expression was observed in papillary thyroid carcinomas (62%) and follicular carcinomas (33%) but was undetectable in medullary, anaplastic carcinomas (P<.001). Cytoplasmic but not nuclear galectin-3 was inversely correlated with American Joint Committee on Cancer TNM stage (P = .02). There was a strong correlation between cytoplasmic and nuclear beta-catenin expression and both nuclear (P = .04) and cytoplasmic (P = .003) galectin-3 expression. Similarly, there was a strong association between galectin-3 nuclear (P<.001) and cytoplasmic (P<.001) expression and cyclin D1 expression. CONCLUSION: Cytoplasmic and nuclear galectin-3 expression seem to be associated with activation of the Wnt-signaling pathway in well-differentiated thyroid neoplasms, suggesting that galectin-3 plays a role in thyroid carcinogenesis.
OBJECTIVES: To characterize the localization of galectin-3 in benign and malignant thyroid neoplasms and to correlate this with alterations in beta-catenin and cyclin D1 expression. DESIGN: Immunohistochemical study of 116 paraffin-embedded archival specimens from 113 patients who had undergone thyroidectomy and tissue placed into a commercially available tissue microarray. SETTING: Tertiary care hospital. INTERVENTIONS: Thyroid tissue microarrays were stained by standard immunohistochemical protocols with monoclonal antibodies against galectin-3, beta-catenin, and cyclin D1. MAIN OUTCOME MEASURES: Nuclear and cytoplasmic expression of galectin-3 was correlated with clinical parameters, beta-catenin, and cyclin D1 expression. RESULTS: Both cytoplasmic (56%) and nuclear (42%) galectin-3 expression was observed in most malignant neoplasms but was absent in benign thyroid specimens (P<.001). Among carcinomas, cytoplasmic galectin-3 expression was observed in papillary thyroid carcinomas (82%) and follicular (33%) and medullary (9%) carcinomas but was absent in anaplastic carcinomas (P<.001). Galectin-3 nuclear expression was observed in papillary thyroid carcinomas (62%) and follicular carcinomas (33%) but was undetectable in medullary, anaplastic carcinomas (P<.001). Cytoplasmic but not nuclear galectin-3 was inversely correlated with American Joint Committee on Cancer TNM stage (P = .02). There was a strong correlation between cytoplasmic and nuclear beta-catenin expression and both nuclear (P = .04) and cytoplasmic (P = .003) galectin-3 expression. Similarly, there was a strong association between galectin-3 nuclear (P<.001) and cytoplasmic (P<.001) expression and cyclin D1 expression. CONCLUSION: Cytoplasmic and nuclear galectin-3 expression seem to be associated with activation of the Wnt-signaling pathway in well-differentiated thyroid neoplasms, suggesting that galectin-3 plays a role in thyroid carcinogenesis.
Authors: Connie G Chiu; Scott S Strugnell; Obi L Griffith; Steven J M Jones; Allen M Gown; Blair Walker; Ivan R Nabi; Sam M Wiseman Journal: Am J Pathol Date: 2010-04-02 Impact factor: 4.307
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