A. Kathleen McClendon scite author profile

Type II topoisomerases are ubiquitous enzymes that play essential roles in a number of fundamental DNA processes. They regulate DNA under-and overwinding, and resolve knots and tangles in the genetic material by passing an intact double helix through a transient double-stranded break that they generate in a separate segment of DNA. Because type II topoisomerases generate DNA strand breaks as a requisite intermediate in their catalytic cycle, they have the potential to fragment the genome every time they function. Thus, while these enzymes are essential to the survival of proliferating cells, they also have significant genotoxic effects. This latter aspect of type II topoisomerase has been exploited for the development of several classes of anticancer drugs that are widely employed for the clinical treatment of human malignancies. However, considerable evidence indicates that these enzymes also trigger specific leukemic chromosomal translocations. In light of the impact, both positive and negative, of type II topoisomerases on human cells, it is important to understand how these enzymes function and how their actions can destablize the genome. This article discusses both aspects of human type II topoisomerases.

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Therapeutic CDK4/6 inhibition in breast cancer: key mechanisms of response and failure

Dean

et al. 2010

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A hallmark of cancer is the deregulation of cell-cycle machinery, ultimately facilitating aberrant proliferation that fuels tumorigenesis and disease progression. Particularly, in breast cancers, cyclin D1 has a crucial role in the development of disease. Recently, a highly specific inhibitor of CDK4/6 activity (PD-0332991) has been developed that may have efficacy in the treatment of breast cancer. To interrogate the utility of PD-0332991 in treating breast cancers, therapeutic response was evaluated on a panel of breast cancer cell lines. These analyses showed that the chronic loss of Rb is specifically associated with evolution to a CDK4/6-independent state and, ultimately, resistance to PD-0332991. However, to interrogate the functional consequence of Rb directly, knockdown experiments were performed in models that represent immortalized mammary epithelia and multiple subtypes of breast cancer. These studies showed a highly specific role for Rb in mediating the response to CDK4/6 inhibition that was dependent on transcriptional repression manifest through E2F, and the ability to attenuate CDK2 activity. Acquired resistance to PD-03322991 was specifically associated with attenuation of CDK2 inhibitors, indicating that redundancy in CDK functions represents a determinant of therapeutic failure. Despite these caveats, in specific models, PD-0332991 was a particularly effective therapy, which induced Rb-dependent cytostasis. Combined, these findings indicate the critical importance of fully understanding cell-cycle regulatory pathways in directing the utilization of CDK inhibitors in the clinic.

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Therapeutic response to CDK4/6 inhibition in breast cancer defined by ex vivo analyses of human tumors

et al. 2012

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Modification of the DNA Damage Response by Therapeutic CDK4/6 Inhibition

Dean

McClendon

Knudsen

2012

Journal of Biological Chemistry

130

125

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Background: Targeted CDK4/6 inhibition is a novel therapeutic strategy undergoing PhaseI/II clinical trials for the treatment of solid tumors. Results: CDK4/6 inhibition antagonizes the cytotoxic mechanism(s) of traditional chemotherapies and alters DNA repair processes. Conclusion: CDK4/6 inhibition attenuates the cellular response to cytotoxic chemotherapies. Significance: Understanding of cell cycle and transcriptional effects of CDK4/6 inhibition is critical for clinical utilization.

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