Rational combination therapy with PARP and MEK inhibitors capitalizes on therapeutic liabilities in RAS mutant cancers

Chaoyang Sun; Yong Fang; Jun Yin; Jian Chen; Zhenlin Ju; Dong Zhang; Xiaohua Chen; Christopher P. Vellano; Kang Jin Jeong; Patrick Kwok Shing Ng; Agda Karina B. Eterovic; Neil H. Bhola; Yiling Lu; Shannon N. Westin; Jennifer R. Grandis; Shiaw Yih Lin; Kenneth L. Scott; Guang Peng; Joan Brugge; Gordon B. Mills

doi:10.1126/scitranslmed.aal5148

Rational combination therapy with PARP and MEK inhibitors capitalizes on therapeutic liabilities in RAS mutant cancers

Chaoyang Sun, Yong Fang, Jun Yin, Jian Chen, Zhenlin Ju, Dong Zhang, Xiaohua Chen, Christopher P. Vellano, Kang Jin Jeong, Patrick Kwok Shing Ng, Agda Karina B. Eterovic, Neil H. Bhola, Yiling Lu, Shannon N. Westin, Jennifer R. Grandis, Shiaw Yih Lin, Kenneth L. Scott, Guang Peng, Joan Brugge, Gordon B. Mills

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158 Scopus citations

Abstract

Mutant RAS has remained recalcitrant to targeted therapy efforts. We demonstrate that combined treatment with poly(adenosine diphosphate-ribose) polymerase (PARP) inhibitors and mitogen-activated protein kinase (MAPK) kinase (MEK) inhibitors evokes unanticipated, synergistic cytotoxic effects in vitro and in vivo in multiple RAS mutant tumor models across tumor lineages where RAS mutations are prevalent. The effects of PARP and MEK inhibitor combinations are independent of BRCA1/2 and p53 mutation status, suggesting that the synergistic activity is likely to be generalizable. Synergistic activity of PARP and MEK inhibitor combinations in RAS mutant tumors is associated with (i) induction of BIM-mediated apoptosis, (ii) decrease in expression of components of the homologous recombination DNA repair pathway, (iii) decrease in homologous recombination DNA damage repair capacity, (iv) decrease in DNA damage checkpoint activity, (v) increase in PARP inhibitor-induced DNA damage, (vi) decrease in vascularity that could increase PARP inhibitor efficacy by inducing hypoxia, and (vii) elevated PARP1 protein, which increases trapping activity of PARP inhibitors. Mechanistically, enforced expression of FOXO3a, which is a target of the RAS/MAPK pathway, was sufficient to recapitulate the functional consequences of MEK inhibitors including synergy with PARP inhibitors. Thus, the ability of mutant RAS to suppress FOXO3a and its reversal by MEK inhibitors accounts, at least in part, for the synergy of PARP and MEK inhibitors in RAS mutant tumors. The rational combination of PARP and MEK inhibitors warrants clinical investigation in patients with RAS mutant tumors where there are few effective therapeutic options.

Original language	English (US)
Article number	aal5148
Journal	Science translational medicine
Volume	9
Issue number	392
DOIs	https://doi.org/10.1126/scitranslmed.aal5148
State	Published - May 31 2017

ASJC Scopus subject areas

General Medicine

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Sun, C., Fang, Y., Yin, J., Chen, J., Ju, Z., Zhang, D., Chen, X., Vellano, C. P., Jeong, K. J., Ng, P. K. S., Eterovic, A. K. B., Bhola, N. H., Lu, Y., Westin, S. N., Grandis, J. R., Lin, S. Y., Scott, K. L., Peng, G., Brugge, J., & Mills, G. B. (2017). Rational combination therapy with PARP and MEK inhibitors capitalizes on therapeutic liabilities in RAS mutant cancers. Science translational medicine, 9(392), Article aal5148. https://doi.org/10.1126/scitranslmed.aal5148

Sun, C, Fang, Y, Yin, J, Chen, J, Ju, Z, Zhang, D, Chen, X, Vellano, CP, Jeong, KJ, Ng, PKS, Eterovic, AKB, Bhola, NH, Lu, Y , Westin, SN, Grandis, JR, Lin, SY, Scott, KL, Peng, G, Brugge, J & Mills, GB 2017, 'Rational combination therapy with PARP and MEK inhibitors capitalizes on therapeutic liabilities in RAS mutant cancers', Science translational medicine, vol. 9, no. 392, aal5148. https://doi.org/10.1126/scitranslmed.aal5148

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title = "Rational combination therapy with PARP and MEK inhibitors capitalizes on therapeutic liabilities in RAS mutant cancers",

abstract = "Mutant RAS has remained recalcitrant to targeted therapy efforts. We demonstrate that combined treatment with poly(adenosine diphosphate-ribose) polymerase (PARP) inhibitors and mitogen-activated protein kinase (MAPK) kinase (MEK) inhibitors evokes unanticipated, synergistic cytotoxic effects in vitro and in vivo in multiple RAS mutant tumor models across tumor lineages where RAS mutations are prevalent. The effects of PARP and MEK inhibitor combinations are independent of BRCA1/2 and p53 mutation status, suggesting that the synergistic activity is likely to be generalizable. Synergistic activity of PARP and MEK inhibitor combinations in RAS mutant tumors is associated with (i) induction of BIM-mediated apoptosis, (ii) decrease in expression of components of the homologous recombination DNA repair pathway, (iii) decrease in homologous recombination DNA damage repair capacity, (iv) decrease in DNA damage checkpoint activity, (v) increase in PARP inhibitor-induced DNA damage, (vi) decrease in vascularity that could increase PARP inhibitor efficacy by inducing hypoxia, and (vii) elevated PARP1 protein, which increases trapping activity of PARP inhibitors. Mechanistically, enforced expression of FOXO3a, which is a target of the RAS/MAPK pathway, was sufficient to recapitulate the functional consequences of MEK inhibitors including synergy with PARP inhibitors. Thus, the ability of mutant RAS to suppress FOXO3a and its reversal by MEK inhibitors accounts, at least in part, for the synergy of PARP and MEK inhibitors in RAS mutant tumors. The rational combination of PARP and MEK inhibitors warrants clinical investigation in patients with RAS mutant tumors where there are few effective therapeutic options.",

author = "Chaoyang Sun and Yong Fang and Jun Yin and Jian Chen and Zhenlin Ju and Dong Zhang and Xiaohua Chen and Vellano, {Christopher P.} and Jeong, {Kang Jin} and Ng, {Patrick Kwok Shing} and Eterovic, {Agda Karina B.} and Bhola, {Neil H.} and Yiling Lu and Westin, {Shannon N.} and Grandis, {Jennifer R.} and Lin, {Shiaw Yih} and Scott, {Kenneth L.} and Guang Peng and Joan Brugge and Mills, {Gordon B.}",

note = "Publisher Copyright: {\textcopyright} 2017, American Association for the Advancement of Science.",

year = "2017",

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doi = "10.1126/scitranslmed.aal5148",

language = "English (US)",

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AU - Sun, Chaoyang

AU - Fang, Yong

AU - Yin, Jun

AU - Chen, Jian

AU - Ju, Zhenlin

AU - Zhang, Dong

AU - Chen, Xiaohua

AU - Vellano, Christopher P.

AU - Jeong, Kang Jin

AU - Ng, Patrick Kwok Shing

AU - Eterovic, Agda Karina B.

AU - Bhola, Neil H.

AU - Lu, Yiling

AU - Westin, Shannon N.

AU - Grandis, Jennifer R.

AU - Lin, Shiaw Yih

AU - Scott, Kenneth L.

AU - Peng, Guang

AU - Brugge, Joan

AU - Mills, Gordon B.

PY - 2017/5/31

Y1 - 2017/5/31

N2 - Mutant RAS has remained recalcitrant to targeted therapy efforts. We demonstrate that combined treatment with poly(adenosine diphosphate-ribose) polymerase (PARP) inhibitors and mitogen-activated protein kinase (MAPK) kinase (MEK) inhibitors evokes unanticipated, synergistic cytotoxic effects in vitro and in vivo in multiple RAS mutant tumor models across tumor lineages where RAS mutations are prevalent. The effects of PARP and MEK inhibitor combinations are independent of BRCA1/2 and p53 mutation status, suggesting that the synergistic activity is likely to be generalizable. Synergistic activity of PARP and MEK inhibitor combinations in RAS mutant tumors is associated with (i) induction of BIM-mediated apoptosis, (ii) decrease in expression of components of the homologous recombination DNA repair pathway, (iii) decrease in homologous recombination DNA damage repair capacity, (iv) decrease in DNA damage checkpoint activity, (v) increase in PARP inhibitor-induced DNA damage, (vi) decrease in vascularity that could increase PARP inhibitor efficacy by inducing hypoxia, and (vii) elevated PARP1 protein, which increases trapping activity of PARP inhibitors. Mechanistically, enforced expression of FOXO3a, which is a target of the RAS/MAPK pathway, was sufficient to recapitulate the functional consequences of MEK inhibitors including synergy with PARP inhibitors. Thus, the ability of mutant RAS to suppress FOXO3a and its reversal by MEK inhibitors accounts, at least in part, for the synergy of PARP and MEK inhibitors in RAS mutant tumors. The rational combination of PARP and MEK inhibitors warrants clinical investigation in patients with RAS mutant tumors where there are few effective therapeutic options.

AB - Mutant RAS has remained recalcitrant to targeted therapy efforts. We demonstrate that combined treatment with poly(adenosine diphosphate-ribose) polymerase (PARP) inhibitors and mitogen-activated protein kinase (MAPK) kinase (MEK) inhibitors evokes unanticipated, synergistic cytotoxic effects in vitro and in vivo in multiple RAS mutant tumor models across tumor lineages where RAS mutations are prevalent. The effects of PARP and MEK inhibitor combinations are independent of BRCA1/2 and p53 mutation status, suggesting that the synergistic activity is likely to be generalizable. Synergistic activity of PARP and MEK inhibitor combinations in RAS mutant tumors is associated with (i) induction of BIM-mediated apoptosis, (ii) decrease in expression of components of the homologous recombination DNA repair pathway, (iii) decrease in homologous recombination DNA damage repair capacity, (iv) decrease in DNA damage checkpoint activity, (v) increase in PARP inhibitor-induced DNA damage, (vi) decrease in vascularity that could increase PARP inhibitor efficacy by inducing hypoxia, and (vii) elevated PARP1 protein, which increases trapping activity of PARP inhibitors. Mechanistically, enforced expression of FOXO3a, which is a target of the RAS/MAPK pathway, was sufficient to recapitulate the functional consequences of MEK inhibitors including synergy with PARP inhibitors. Thus, the ability of mutant RAS to suppress FOXO3a and its reversal by MEK inhibitors accounts, at least in part, for the synergy of PARP and MEK inhibitors in RAS mutant tumors. The rational combination of PARP and MEK inhibitors warrants clinical investigation in patients with RAS mutant tumors where there are few effective therapeutic options.

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Rational combination therapy with PARP and MEK inhibitors capitalizes on therapeutic liabilities in RAS mutant cancers

Abstract

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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