2015
DOI: 10.1016/j.ajpath.2015.03.014
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Cell Fusion Connects Oncogenesis with Tumor Evolution

Abstract: Cell fusion likely drives tumor evolution by undermining chromosomal and DNA stability and/or by generating phenotypic diversity; however, whether a cell fusion event can initiate malignancy and direct tumor evolution is unknown. We report that a fusion event involving normal, nontransformed, cytogenetically stable epithelial cells can initiate chromosomal instability, DNA damage, cell transformation, and malignancy. Clonal analysis of fused cells reveals that the karyotypic and phenotypic potential of tumors … Show more

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Cited by 58 publications
(125 citation statements)
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“…In addition to chromosomal instability, fusion-derived IEC-6 cell clones exhibited DNA damage in the form of doublestrand breaks; 35% to 42% of cells from fusion-derived clones exhibited evidence of double-strand breaks compared to only 4% to 9% of nonfused clones. 4 Despite DNA damage in fusion-derived IEC-6 cell clones, activated caspase 3 was rarely detected, indicating that DNA damage does not lead to apoptosis in these cells.…”
Section: Cell Fusion Engenders Genomic Instability and Dna Damagementioning
confidence: 97%
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“…In addition to chromosomal instability, fusion-derived IEC-6 cell clones exhibited DNA damage in the form of doublestrand breaks; 35% to 42% of cells from fusion-derived clones exhibited evidence of double-strand breaks compared to only 4% to 9% of nonfused clones. 4 Despite DNA damage in fusion-derived IEC-6 cell clones, activated caspase 3 was rarely detected, indicating that DNA damage does not lead to apoptosis in these cells.…”
Section: Cell Fusion Engenders Genomic Instability and Dna Damagementioning
confidence: 97%
“…4 Fusion-derived IEC-6 cell clones were also heterogeneous with respect to ploidy; near-diploid clones with a modal chromosome number of 42 exhibited a wide range of chromosome numbers indicating the presence of significant subpopulations of aneuploid cells within the cell population. 4 These observations combine to suggest that early after a cell fusion event, the genomes of fusion-derived clones exhibit instability that manifests as changes in ploidy, with generation of aneuploid clones, neardiploid clones that likely have aberrant karyotypes despite a near-normal chromosome number, and near-diploid clones that contain significant subpopulations of aneuploid cells. In addition to chromosomal instability, fusion-derived IEC-6 cell clones exhibited DNA damage in the form of doublestrand breaks; 35% to 42% of cells from fusion-derived clones exhibited evidence of double-strand breaks compared to only 4% to 9% of nonfused clones.…”
Section: Cell Fusion Engenders Genomic Instability and Dna Damagementioning
confidence: 98%
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