| Literature DB >> 16819513 |
A Letessier1, S Garrido-Urbani, C Ginestier, G Fournier, B Esterni, F Monville, J Adélaïde, J Geneix, L Xerri, P Dubreuil, P Viens, E Charafe-Jauffret, J Jacquemier, D Birnbaum, M Lopez, M Chaffanet.
Abstract
Common fragile sites (CFSs) are regions of chromosomal break that may play a role in oncogenesis. The most frequent alteration occurs at FRA3B, within the FHIT gene, at chromosomal region 3p14. We studied a series of breast carcinomas for break of a CFS at 6q26, FRA6E, and its associated gene PARK2, using fluorescence in situ hybridization on tissue microarrays (TMA). We found break of PARK2 in 6% of cases. We studied the PARK2-encoded protein Parkin by using immunohistochemistry on the same TMA. Loss of Parkin was found in 13% of samples but was not correlated with PARK2 break. PARK2 break but not Parkin expression was correlated with prognosis. Alteration of PARK2/FRA6E may cause haplo-insufficiency of one or several telomeric potential tumor suppressor genes (TSG). The AF-6/MLLT4 gene, telomeric of PARK2, encodes the Afadin scaffold protein, which is essential for epithelial integrity. Loss of Afadin was found in 14.5% of cases, and 36% of these cases showed PARK2 break. Loss of Afadin had prognostic impact, suggesting that AF-6 may be a TSG. Loss of Afadin was correlated with loss of FHIT expression, suggesting fragility of FRA6E and FRA3B in a certain proportion of breast tumors.Entities:
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Year: 2006 PMID: 16819513 DOI: 10.1038/sj.onc.1209772
Source DB: PubMed Journal: Oncogene ISSN: 0950-9232 Impact factor: 9.867