HMGA1 protein expression in familial breast carcinoma patients.

HMGA protein overexpression is associated with a highly malignant phenotype and it is also causally related to neoplastic cell transformation. Our previous results have shown that HMGA1 was not expressed in normal breast tissue whereas HMGA1 staining was intense in 25% of hyperplastic lesions with cellular atypia and in 60% of sporadic ductal carcinomas. Moreover, HMGA1 protein levels were significantly correlated with c-Erb-B2 expression. These results suggested HMGA1 expression as a novel prognostic factor in breast ductal carcinomas. In order to investigate whether the HMGA1 detection might have a prognostic role also for inherited breast carcinomas we have analysed the expression of the HMGA1 proteins in 116 breast familial carcinomas associated with BRCA1 or BRCA2 or negative for mutations in both genes (BRCAX). HMGA1 expression was weakly positive in 23 (20%), moderately positive in 34 (29%) and strongly positive in 20 (17%) breast carcinomas, and was not detected in 39 of them (34%). Statistical analysis of the immunostaining data showed that HMGA1 was significantly overexpressed, with a more intense staining, in BRCA2 (p=0.0009) and BRCAX (p=0.0134) patients compared to BRCA1 ones. Furthermore, in BRCA2 positive patients, the expression of HMGA1 seems to correlate with a favourable prognosis with a median overall survival of 65 months and a 5-year survival rate of 80% for HMGA1-negative patients, while median overall survival in the HMGA1-positive subsets was not reached with 5-year survival rates ranging from 84% to 100% of patients (p=0.0198). Conversely, no correlation was found between HMGA1 expression and overall survival in patients carrying inherited mutations in the BRCA1 and in BRCAX patients.

Aurora B overexpression associates with the thyroid carcinoma undifferentiated phenotype and is required for thyroid carcinoma cell proliferation.

Alterations in chromosome number (aneuploidy) are common in human neoplasias. Loss of mitotic regulation is believed to induce aneuploidy in cancer cells and act as a driving force during the malignant progression. The serine/theronine protein kinases of aurora family genes play a critical role in the regulation of key cell cycle processes. Aurora B mediates chromosome segregation by ensuring orientation of sister chromatids and overexpression of Aurora B in diploid human cells NHDF (normal human diploid fibroblast) induces multinuclearity. We analyzed Aurora B expression in human thyroid carcinomas. Cell lines originating from different histotypes showed an increase in Aurora B expression. Immunohistochemical analysis of archive samples showed a high expression of Aurora B in anaplastic thyroid carcinomas; conversely, Aurora B expression was not detectable in normal thyroid tissue. Real-time PCR analysis confirmed a strong expression of Aurora B in anaplastic thyroid carcinomas. The block of Aurora B expression induced by RNA interference or by using an inhibitor of Aurora kinase activity significantly reduced the growth of thyroid anaplastic carcinoma cells.