Media type: E-Article Title: Chromosome 17p13.2 transfer reverts transformation phenotypes and fas‐mediated apoptosis in breast epithelial cells Contributor: Lareef, Mohamed H.; Tahin, Quivo; Song, Joon; Russo, Irma H.; Mihaila, Dana; Slater, Carolyn M.; Balsara, Binaifer; Testa, Joseph R.; Broccoli, Dominique; Grobelny, Jennifer V.; Mor, Gil; Cuthbert, Andrew; Russo, Jose imprint: Wiley, 2004 Published in: Molecular Carcinogenesis Language: English DOI: 10.1002/mc.20014 ISSN: 0899-1987; 1098-2744 Keywords: Cancer Research ; Molecular Biology Origination: Footnote: Description: <jats:title>Abstract</jats:title><jats:p>Transformation of the human breast epithelial cells (HBEC) MCF‐10F with the carcinogen benz(a)pyrene (BP) into BP1‐E cells resulted in the loss of the chromosome 17 p13.2 locus (D17S796 marker) and formation of colonies in agar‐methocel (colony efficiency (CE)), loss of ductulogenic capacity in collagen matrix, and resistance to anti‐Fas monoclonal antibody (Mab)‐induced apoptosis. For testing the role of that specific region of chromosome 17 in the expression of transformation phenotypes, we transferred chromosome 17 from mouse fibroblast donors to BP1‐E cells. Chromosome 11 was used as negative control. After G418 selection, nine clones each were randomly selected from BP1‐E‐11<jats:italic>neo</jats:italic> and BP1‐E‐17<jats:italic>neo</jats:italic> hybrids, respectively, and tested for the presence of the donor chromosomes by fluorescent in situ hybridization and polymerase chain reaction‐based restriction fragment length polymorphism (PCR‐RFLP) analyses. Sensitivity to Fas Mab–induced apoptosis and evaluation of transformation phenotype expression were tested in MCF‐10F, BP1‐E, and nine BP1‐E‐11<jats:italic>neo</jats:italic> and BP1‐E‐17<jats:italic>neo</jats:italic> clones each. Six BP1‐E‐17<jats:italic>neo</jats:italic> clones exhibited a reversion of transformation phenotypes and a dose dependent sensitivity to Fas Mab‐induced apoptosis, behaving similarly to MCF‐10F cells. All BP1‐E‐11<jats:italic>neo</jats:italic>, and three BP1‐E‐17<jats:italic>neo</jats:italic> cell clones, like BP1‐E cells, retained a high CE, loss of ductulogenic capacity, and were resistant to all Fas Mab doses tested. Genomic analysis revealed that those six BP1‐E‐17<jats:italic>neo</jats:italic> clones that were Fas‐sensitive and reverted their transformed phenotypes had retained the 17p13.2 (D17S796 marker) region, whereas it was absent in all resistant clones, indicating that the expression of transformation phenotypes and the sensitivity of the cells to Fas‐mediated apoptosis were under the control of genes located in this region. © 2004 Wiley‐Liss, Inc.</jats:p>