Your search keyword '"Ka, C."' showing total 3 results

1. Proteasomal inhibition potentiates drugs targeting DNA topoisomerase II

Author

Lee, Ka C., Bramley, Rebecca L., Cowell, Ian G., Jackson, Graham H., and Austin, Caroline A.

Published

2016

2. Proteasomal inhibition potentiates drugs targeting DNA topoisomerase II

Author

Ka C, Lee, Rebecca L, Bramley, Ian G, Cowell, Graham H, Jackson, and Caroline A, Austin

Subjects

MG132, Proteasome, Leupeptins, Drug Synergism, DNA, Article, Bortezomib, DNA-Binding Proteins, Velcade, DNA Topoisomerases, Type II, Antigens, Neoplasm, Drug Resistance, Neoplasm, Cell Line, Tumor, Humans, Topoisomerase II Inhibitors, DNA topoisomerase II, Mitoxantrone, Poly-ADP-Ribose Binding Proteins, Proteasome Inhibitors, ComputingMethodologies_COMPUTERGRAPHICS, Cell Proliferation, Etoposide

Abstract

Graphical abstract, The reaction mechanism of DNA topoisomerase II (TOP2) involves a covalent double-strand break intermediate in which the enzyme is coupled to DNA via a 5′-phosphotyrosyl bond. This normally transient enzyme-bridged break is stabilised by drugs such as mitoxantrone, mAMSA, etoposide, doxorubicin, epirubicin and idarubicin, which are referred to as TOP2 poisons. Removal of topoisomerase II by the proteasome is involved in the repair of these lesions. In K562 cells, inhibiting the proteasome with MG132 significantly potentiated the growth inhibition by these six drugs that target topoisomerase II, and the highest level of potentiation was observed with mitoxantrone. Mitoxantrone also showed the greatest potentiation by MG132 in three Nalm 6 cell lines with differing levels of TOP2A or TOP2B. Mitoxantrone was also potentiated by the clinically used proteasome inhibitor PS341 (Velcade). We have also shown that proteasome inhibition with MG132 in K562 cells reduces the rate of removal of mitoxantrone or etoposide stabilised topoisomerase complexes from DNA, suggesting a possible mechanism for the potentiation of topoisomerase II drugs by proteasomal inhibition.

Published

2015

3. Proteasomal inhibition potentiates drugs targeting DNA topoisomerase II

Author

Lee, Ka C., Bramley, Rebecca L., Cowell, Ian G., Jackson, Graham H., and Austin, Caroline A.

Subjects

Pharmacology, Velcade, MG132, Proteasome, DNA topoisomerase II, Mitoxantrone, Biochemistry

Abstract

The reaction mechanism of DNA topoisomerase II (TOP2) involves a covalent double-strand break intermediate in which the enzyme is coupled to DNA via a 5′-phosphotyrosyl bond. This normally transient enzyme-bridged break is stabilised by drugs such as mitoxantrone, mAMSA, etoposide, doxorubicin, epirubicin and idarubicin, which are referred to as TOP2 poisons. Removal of topoisomerase II by the proteasome is involved in the repair of these lesions. In K562 cells, inhibiting the proteasome with MG132 significantly potentiated the growth inhibition by these six drugs that target topoisomerase II, and the highest level of potentiation was observed with mitoxantrone. Mitoxantrone also showed the greatest potentiation by MG132 in three Nalm 6 cell lines with differing levels of TOP2A or TOP2B. Mitoxantrone was also potentiated by the clinically used proteasome inhibitor PS341 (Velcade). We have also shown that proteasome inhibition with MG132 in K562 cells reduces the rate of removal of mitoxantrone or etoposide stabilised topoisomerase complexes from DNA, suggesting a possible mechanism for the potentiation of topoisomerase II drugs by proteasomal inhibition.