Targeting DNA Replication before it Starts
Treatment options for triple-receptor negative (ER−/PR−/Her2−) and Her2-overexpressing (ER−/PR−/Her2+) breast cancers with acquired or de novo resistance are limited, and metastatic disease remains incurable. Targeting of growth signaling networks is often constrained by pathway redundancy or growth...
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Veröffentlicht in: | The American journal of pathology 2010, Vol.177 (4), p.2034-2045 |
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Sprache: | eng |
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Zusammenfassung: | Treatment options for triple-receptor negative (ER−/PR−/Her2−) and Her2-overexpressing (ER−/PR−/Her2+) breast cancers with acquired or de novo resistance are limited, and metastatic disease remains incurable. Targeting of growth signaling networks is often constrained by pathway redundancy or growth-independent cancer cell cycles. The cell-cycle protein Cdc7 regulates S phase by promoting DNA replication. This essential kinase acts as a convergence point for upstream growth signaling pathways and is therefore an attractive therapeutic target. We show that increased Cdc7 expression during mammary tumorigenesis is linked to Her2-overexpressing and triple-negative subtypes, accelerated cell cycle progression ( P < 0.001), arrested tumor differentiation ( P < 0.001), genomic instability ( P = 0.019), increasing NPI score ( P < 0.001), and reduced disease-free survival (HR = 1.98 [95% CI: 1.27–3.10]; P = 0.003), thus implicating its deregulation in the development of aggressive disease. Targeting Cdc7 with RNAi, we demonstrate that p53-mutant Her2-overexpressing and triple-negative breast cancer cell lines undergo an abortive S phase and apoptotic cell death due to loss of a p53-dependent Cdc7-inhibition checkpoint. In contrast, untransformed breast epithelial cells arrest in G1, remain viable, and are able to resume cell proliferation on recovery of Cdc7 kinase activity. Thus, Cdc7 appears to represent a potent and highly specific anticancer target in Her2-overexpressing and triple-negative breast cancers. Emerging Cdc7 kinase inhibitors may therefore significantly broaden the therapeutic armamentarium for treatment of the aggressive p53-mutant breast cancer subtypes identified in this study. |
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ISSN: | 0002-9440 1525-2191 |
DOI: | 10.2353/ajpath.2010.100421 |