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1. Efflux inhibition by IWR-1-endo confers sensitivity to doxorubicin effects in osteosarcoma cells.

Author

Gustafson CT, Mamo T, Maran A, and Yaszemski MJ

Subjects

Antibiotics, Antineoplastic administration & dosage, Bone Neoplasms drug therapy, Cell Line, Tumor, Dose-Response Relationship, Drug, Drug Resistance, Neoplasm physiology, Drug Synergism, Humans, Osteosarcoma drug therapy, Tankyrases antagonists & inhibitors, Tankyrases metabolism, Antineoplastic Agents administration & dosage, Bone Neoplasms metabolism, Doxorubicin administration & dosage, Drug Resistance, Neoplasm drug effects, Imides administration & dosage, Osteosarcoma metabolism, Quinolines administration & dosage

Abstract

Osteosarcoma is the most common bone tumor that affects children and young adults. Despite advances in the use of combination chemotherapy regimens, response to neoadjuvant chemotherapy in osteosarcoma remains a key determinant of patient outcome. Recently, highly potent small molecule inhibitors of canonical Wnt signaling through the poly(ADP-ribose) polymerase (PARP)-family enzymes, tankyrases 1 & 2 (Tnks1/2), have been considered as possible chemotherapy sensitizing agents. The goal of this study was to determine the ability of the highly specific Tnks1/2 inhibitor IWR-1-endo to sensitize chemotherapy-resistant osteosarcoma to doxorubicin. We found that IWR-1-endo significantly inhibited cellular efflux, as measured by cellular retention of Calcein AM and doxorubicin. In a model of doxorubicin resistant osteosarcoma, pre-treatment with IWR-1-endo strongly sensitized to doxorubicin. This sensitization reduced the doxorubicin IC 50 in doxorubicin-resistant cells, but not in chemotherapy naïve cells and caused doxorubicin-treated cells to accumulate at the G2/M checkpoint. Further, we found that sensitization with IWR-1-endo produced increased γH2AX foci formation, indicating increased DNA damage by doxorubicin. Taken together, our findings show that IWR-1-endo increases cellular responses to doxorubicin, by blocking efflux transport in a drug-resistant model of osteosarcoma., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018