Eliminating hypoxic tumor cells improves response to PARP inhibitors in homologous recombination–deficient cancer models

Manal Mehibel; Yu Xu; Caiyun G. Li; Eui Jung Moon; Kaushik N. Thakkar; Anh N. Diep; Ryan K. Kim; Joshua D. Bloomstein; Yiren Xiao; Julien Bacal; Joshua C. Saldivar; Quynh Thu Le; Karlene A. Cimprich; Erinn B. Rankin; Amato J. Giaccia

doi:10.1172/JCI146256

Eliminating hypoxic tumor cells improves response to PARP inhibitors in homologous recombination–deficient cancer models

Manal Mehibel, Yu Xu, Caiyun G. Li, Eui Jung Moon, Kaushik N. Thakkar, Anh N. Diep, Ryan K. Kim, Joshua D. Bloomstein, Yiren Xiao, Julien Bacal, Joshua C. Saldivar, Quynh Thu Le, Karlene A. Cimprich, Erinn B. Rankin, Amato J. Giaccia

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18 Scopus citations

Abstract

Hypoxia, a hallmark feature of the tumor microenvironment, causes resistance to conventional chemotherapy, but was recently reported to synergize with poly(ADP-ribose) polymerase inhibitors (PARPis) in homologous recombination–proficient (HR-proficient) cells through suppression of HR. While this synergistic killing occurs under severe hypoxia (<0.5% oxygen), our study shows that moderate hypoxia (2% oxygen) instead promotes PARPi resistance in both HR-proficient and -deficient cancer cells. Mechanistically, we identify reduced ROS-induced DNA damage as the cause for the observed resistance. To determine the contribution of hypoxia to PARPi resistance in tumors, we used the hypoxic cytotoxin tirapazamine to selectively kill hypoxic tumor cells. We found that the selective elimination of hypoxic tumor cells led to a substantial antitumor response when used with PARPi compared with that in tumors treated with PARPi alone, without enhancing normal tissue toxicity. Since human breast cancers with BRAC1/2 mutations have an increased hypoxia signature and hypoxia reduces the efficacy of PARPi, then eliminating hypoxic tumor cells should enhance the efficacy of PARPi therapy.

Original language	English (US)
Article number	e146256
Journal	Journal of Clinical Investigation
Volume	131
Issue number	11
DOIs	https://doi.org/10.1172/JCI146256
State	Published - Jun 2021
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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Mehibel, M., Xu, Y., Li, C. G., Moon, E. J., Thakkar, K. N., Diep, A. N., Kim, R. K., Bloomstein, J. D., Xiao, Y., Bacal, J., Saldivar, J. C., Le, Q. T., Cimprich, K. A., Rankin, E. B., & Giaccia, A. J. (2021). Eliminating hypoxic tumor cells improves response to PARP inhibitors in homologous recombination–deficient cancer models. Journal of Clinical Investigation, 131(11), Article e146256. https://doi.org/10.1172/JCI146256

Mehibel, M, Xu, Y, Li, CG, Moon, EJ, Thakkar, KN, Diep, AN, Kim, RK, Bloomstein, JD, Xiao, Y, Bacal, J, Saldivar, JC, Le, QT, Cimprich, KA, Rankin, EB & Giaccia, AJ 2021, 'Eliminating hypoxic tumor cells improves response to PARP inhibitors in homologous recombination–deficient cancer models', Journal of Clinical Investigation, vol. 131, no. 11, e146256. https://doi.org/10.1172/JCI146256

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title = "Eliminating hypoxic tumor cells improves response to PARP inhibitors in homologous recombination–deficient cancer models",

abstract = "Hypoxia, a hallmark feature of the tumor microenvironment, causes resistance to conventional chemotherapy, but was recently reported to synergize with poly(ADP-ribose) polymerase inhibitors (PARPis) in homologous recombination–proficient (HR-proficient) cells through suppression of HR. While this synergistic killing occurs under severe hypoxia (<0.5% oxygen), our study shows that moderate hypoxia (2% oxygen) instead promotes PARPi resistance in both HR-proficient and -deficient cancer cells. Mechanistically, we identify reduced ROS-induced DNA damage as the cause for the observed resistance. To determine the contribution of hypoxia to PARPi resistance in tumors, we used the hypoxic cytotoxin tirapazamine to selectively kill hypoxic tumor cells. We found that the selective elimination of hypoxic tumor cells led to a substantial antitumor response when used with PARPi compared with that in tumors treated with PARPi alone, without enhancing normal tissue toxicity. Since human breast cancers with BRAC1/2 mutations have an increased hypoxia signature and hypoxia reduces the efficacy of PARPi, then eliminating hypoxic tumor cells should enhance the efficacy of PARPi therapy.",

author = "Manal Mehibel and Yu Xu and Li, {Caiyun G.} and Moon, {Eui Jung} and Thakkar, {Kaushik N.} and Diep, {Anh N.} and Kim, {Ryan K.} and Bloomstein, {Joshua D.} and Yiren Xiao and Julien Bacal and Saldivar, {Joshua C.} and Le, {Quynh Thu} and Cimprich, {Karlene A.} and Rankin, {Erinn B.} and Giaccia, {Amato J.}",

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year = "2021",

month = jun,

doi = "10.1172/JCI146256",

language = "English (US)",

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AU - Moon, Eui Jung

AU - Thakkar, Kaushik N.

AU - Diep, Anh N.

AU - Kim, Ryan K.

AU - Bloomstein, Joshua D.

AU - Xiao, Yiren

AU - Bacal, Julien

AU - Saldivar, Joshua C.

AU - Le, Quynh Thu

AU - Cimprich, Karlene A.

AU - Rankin, Erinn B.

AU - Giaccia, Amato J.

PY - 2021/6

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N2 - Hypoxia, a hallmark feature of the tumor microenvironment, causes resistance to conventional chemotherapy, but was recently reported to synergize with poly(ADP-ribose) polymerase inhibitors (PARPis) in homologous recombination–proficient (HR-proficient) cells through suppression of HR. While this synergistic killing occurs under severe hypoxia (<0.5% oxygen), our study shows that moderate hypoxia (2% oxygen) instead promotes PARPi resistance in both HR-proficient and -deficient cancer cells. Mechanistically, we identify reduced ROS-induced DNA damage as the cause for the observed resistance. To determine the contribution of hypoxia to PARPi resistance in tumors, we used the hypoxic cytotoxin tirapazamine to selectively kill hypoxic tumor cells. We found that the selective elimination of hypoxic tumor cells led to a substantial antitumor response when used with PARPi compared with that in tumors treated with PARPi alone, without enhancing normal tissue toxicity. Since human breast cancers with BRAC1/2 mutations have an increased hypoxia signature and hypoxia reduces the efficacy of PARPi, then eliminating hypoxic tumor cells should enhance the efficacy of PARPi therapy.

AB - Hypoxia, a hallmark feature of the tumor microenvironment, causes resistance to conventional chemotherapy, but was recently reported to synergize with poly(ADP-ribose) polymerase inhibitors (PARPis) in homologous recombination–proficient (HR-proficient) cells through suppression of HR. While this synergistic killing occurs under severe hypoxia (<0.5% oxygen), our study shows that moderate hypoxia (2% oxygen) instead promotes PARPi resistance in both HR-proficient and -deficient cancer cells. Mechanistically, we identify reduced ROS-induced DNA damage as the cause for the observed resistance. To determine the contribution of hypoxia to PARPi resistance in tumors, we used the hypoxic cytotoxin tirapazamine to selectively kill hypoxic tumor cells. We found that the selective elimination of hypoxic tumor cells led to a substantial antitumor response when used with PARPi compared with that in tumors treated with PARPi alone, without enhancing normal tissue toxicity. Since human breast cancers with BRAC1/2 mutations have an increased hypoxia signature and hypoxia reduces the efficacy of PARPi, then eliminating hypoxic tumor cells should enhance the efficacy of PARPi therapy.

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Eliminating hypoxic tumor cells improves response to PARP inhibitors in homologous recombination–deficient cancer models

Abstract

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