IGF-1R and mTOR blockade: Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma

Salah Eddine Lamhamedi-Cherradi; Brian A. Menegaz; Vandhana Ramamoorthy; Deeksha Vishwamitra; Ying Wang; Rebecca L. Maywald; Adriana S. Buford; Izabela Fokt; Stanislaw Skora; Jing Wang; Aung Naing; Alexander J. Lazar; Eric Rohren; Najat C. Daw; Vivek Subbiah; Robert S Benjamin; Ravin Ratan; Waldemar Priebe; Antonios G. Mikos; Hesham M. Amin; Joseph A. Ludwig

doi:10.1093/jnci/djw182

IGF-1R and mTOR blockade: Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma

Salah Eddine Lamhamedi-Cherradi, Brian A. Menegaz, Vandhana Ramamoorthy, Deeksha Vishwamitra, Ying Wang, Rebecca L. Maywald, Adriana S. Buford, Izabela Fokt, Stanislaw Skora, Jing Wang, Aung Naing, Alexander J. Lazar, Eric Rohren, Najat C. Daw, Vivek Subbiah, Robert S Benjamin, Ravin Ratan, Waldemar Priebe, Antonios G. Mikos, Hesham M. AminJoseph A. Ludwig

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Abstract

Background: Therapies cotargeting insulin-like growth factor receptor 1 (IGF-1R) and mammalian target of rapamycin (mTOR) have demonstrated remarkable, albeit short-lived, clinical responses in a subset of Ewing sarcoma (ES) patients. However, the mechanisms of resistance and applicable strategies for overcoming drug resistance to the IGF-1R/mTOR blockade are still undefined. Methods: To elucidate predominant mechanism(s) of acquired drug resistance while identifying synergistic drug combinations that improve clinical efficacy, we generated more than 18 ES cell lines resistant to IGF-1R- or mTOR-targeted therapy. Two small-molecule inhibitors of IGF-1R were chosen, NVP-ADW-742 (IGF-1R-selective) and OSI-906 (a dual IGF-1R/ insulin receptor alpha [IR-a] inhibitor). Reverse-phase protein lysate arrays (RPPAs) revealed proteomic changes linked to IGF- 1R/mTOR resistance, and selected proteins were validated in cell-based assays, xenografts, and within human clinical samples. All statistical tests were two-sided. Results: Novel mechanisms of resistance (MOR) emerged after dalotuzumab-, NVP-ADW-742-, and OSI-906-based targeting of IGF-1R. MOR to dalotuzumab included upregulation of IRS1, PI3K, and STAT3, as well as p38 MAPK, which was also induced by OSI-906. pEIF4E(Ser209), a key regulator of Cap-dependent translation, was induced in ridaforolimus-resistant ES cell lines. Unique drug combinations targeting IGF-1R and PI3K-alpha or Mnk and mTOR were synergistic in vivo and vitro (P < .001) as assessed respectively by Mantel-Cox and isobologram testing. Conclusions: We discovered new druggable targets expressed by chemoresistant ES cells, xenografts, and relapsed human tumors. Joint suppression of these newfound targets, in concert with IGF-1R ormTOR blockade, should improve clinical outcomes.

Original language	English (US)
Article number	djw182
Journal	Journal of the National Cancer Institute
Volume	108
Issue number	12
DOIs	https://doi.org/10.1093/jnci/djw182
State	Published - Dec 1 2016

ASJC Scopus subject areas

Oncology
Cancer Research

MD Anderson CCSG core facilities

Bioinformatics Shared Resource
Functional Proteomics Reverse Phase Protein Array Core
Research Animal Support Facility
Tissue Biospecimen and Pathology Resource

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10.1093/jnci/djw182

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Lamhamedi-Cherradi, S. E., Menegaz, B. A., Ramamoorthy, V., Vishwamitra, D., Wang, Y., Maywald, R. L., Buford, A. S., Fokt, I., Skora, S., Wang, J., Naing, A., Lazar, A. J., Rohren, E., Daw, N. C., Subbiah, V., Benjamin, R. S., Ratan, R., Priebe, W., Mikos, A. G., ... Ludwig, J. A. (2016). IGF-1R and mTOR blockade: Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma. Journal of the National Cancer Institute, 108(12), Article djw182. https://doi.org/10.1093/jnci/djw182

Lamhamedi-Cherradi, SE, Menegaz, BA, Ramamoorthy, V, Vishwamitra, D, Wang, Y, Maywald, RL, Buford, AS, Fokt, I , Skora, S, Wang, J, Naing, A , Lazar, AJ, Rohren, E, Daw, NC, Subbiah, V, Benjamin, RS, Ratan, R , Priebe, W, Mikos, AG, Amin, HM & Ludwig, JA 2016, 'IGF-1R and mTOR blockade: Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma', Journal of the National Cancer Institute, vol. 108, no. 12, djw182. https://doi.org/10.1093/jnci/djw182

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title = "IGF-1R and mTOR blockade: Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma",

abstract = "Background: Therapies cotargeting insulin-like growth factor receptor 1 (IGF-1R) and mammalian target of rapamycin (mTOR) have demonstrated remarkable, albeit short-lived, clinical responses in a subset of Ewing sarcoma (ES) patients. However, the mechanisms of resistance and applicable strategies for overcoming drug resistance to the IGF-1R/mTOR blockade are still undefined. Methods: To elucidate predominant mechanism(s) of acquired drug resistance while identifying synergistic drug combinations that improve clinical efficacy, we generated more than 18 ES cell lines resistant to IGF-1R- or mTOR-targeted therapy. Two small-molecule inhibitors of IGF-1R were chosen, NVP-ADW-742 (IGF-1R-selective) and OSI-906 (a dual IGF-1R/ insulin receptor alpha [IR-a] inhibitor). Reverse-phase protein lysate arrays (RPPAs) revealed proteomic changes linked to IGF- 1R/mTOR resistance, and selected proteins were validated in cell-based assays, xenografts, and within human clinical samples. All statistical tests were two-sided. Results: Novel mechanisms of resistance (MOR) emerged after dalotuzumab-, NVP-ADW-742-, and OSI-906-based targeting of IGF-1R. MOR to dalotuzumab included upregulation of IRS1, PI3K, and STAT3, as well as p38 MAPK, which was also induced by OSI-906. pEIF4E(Ser209), a key regulator of Cap-dependent translation, was induced in ridaforolimus-resistant ES cell lines. Unique drug combinations targeting IGF-1R and PI3K-alpha or Mnk and mTOR were synergistic in vivo and vitro (P < .001) as assessed respectively by Mantel-Cox and isobologram testing. Conclusions: We discovered new druggable targets expressed by chemoresistant ES cells, xenografts, and relapsed human tumors. Joint suppression of these newfound targets, in concert with IGF-1R ormTOR blockade, should improve clinical outcomes.",

author = "Lamhamedi-Cherradi, {Salah Eddine} and Menegaz, {Brian A.} and Vandhana Ramamoorthy and Deeksha Vishwamitra and Ying Wang and Maywald, {Rebecca L.} and Buford, {Adriana S.} and Izabela Fokt and Stanislaw Skora and Jing Wang and Aung Naing and Lazar, {Alexander J.} and Eric Rohren and Daw, {Najat C.} and Vivek Subbiah and Benjamin, {Robert S} and Ravin Ratan and Waldemar Priebe and Mikos, {Antonios G.} and Amin, {Hesham M.} and Ludwig, {Joseph A.}",

year = "2016",

month = dec,

day = "1",

doi = "10.1093/jnci/djw182",

language = "English (US)",

volume = "108",

journal = "Journal of the National Cancer Institute",

issn = "0027-8874",

publisher = "Oxford University Press",

number = "12",

}

TY - JOUR

T1 - IGF-1R and mTOR blockade

T2 - Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma

AU - Lamhamedi-Cherradi, Salah Eddine

AU - Menegaz, Brian A.

AU - Ramamoorthy, Vandhana

AU - Vishwamitra, Deeksha

AU - Wang, Ying

AU - Maywald, Rebecca L.

AU - Buford, Adriana S.

AU - Fokt, Izabela

AU - Skora, Stanislaw

AU - Wang, Jing

AU - Naing, Aung

AU - Lazar, Alexander J.

AU - Rohren, Eric

AU - Daw, Najat C.

AU - Subbiah, Vivek

AU - Benjamin, Robert S

AU - Ratan, Ravin

AU - Priebe, Waldemar

AU - Mikos, Antonios G.

AU - Amin, Hesham M.

AU - Ludwig, Joseph A.

PY - 2016/12/1

Y1 - 2016/12/1

N2 - Background: Therapies cotargeting insulin-like growth factor receptor 1 (IGF-1R) and mammalian target of rapamycin (mTOR) have demonstrated remarkable, albeit short-lived, clinical responses in a subset of Ewing sarcoma (ES) patients. However, the mechanisms of resistance and applicable strategies for overcoming drug resistance to the IGF-1R/mTOR blockade are still undefined. Methods: To elucidate predominant mechanism(s) of acquired drug resistance while identifying synergistic drug combinations that improve clinical efficacy, we generated more than 18 ES cell lines resistant to IGF-1R- or mTOR-targeted therapy. Two small-molecule inhibitors of IGF-1R were chosen, NVP-ADW-742 (IGF-1R-selective) and OSI-906 (a dual IGF-1R/ insulin receptor alpha [IR-a] inhibitor). Reverse-phase protein lysate arrays (RPPAs) revealed proteomic changes linked to IGF- 1R/mTOR resistance, and selected proteins were validated in cell-based assays, xenografts, and within human clinical samples. All statistical tests were two-sided. Results: Novel mechanisms of resistance (MOR) emerged after dalotuzumab-, NVP-ADW-742-, and OSI-906-based targeting of IGF-1R. MOR to dalotuzumab included upregulation of IRS1, PI3K, and STAT3, as well as p38 MAPK, which was also induced by OSI-906. pEIF4E(Ser209), a key regulator of Cap-dependent translation, was induced in ridaforolimus-resistant ES cell lines. Unique drug combinations targeting IGF-1R and PI3K-alpha or Mnk and mTOR were synergistic in vivo and vitro (P < .001) as assessed respectively by Mantel-Cox and isobologram testing. Conclusions: We discovered new druggable targets expressed by chemoresistant ES cells, xenografts, and relapsed human tumors. Joint suppression of these newfound targets, in concert with IGF-1R ormTOR blockade, should improve clinical outcomes.

AB - Background: Therapies cotargeting insulin-like growth factor receptor 1 (IGF-1R) and mammalian target of rapamycin (mTOR) have demonstrated remarkable, albeit short-lived, clinical responses in a subset of Ewing sarcoma (ES) patients. However, the mechanisms of resistance and applicable strategies for overcoming drug resistance to the IGF-1R/mTOR blockade are still undefined. Methods: To elucidate predominant mechanism(s) of acquired drug resistance while identifying synergistic drug combinations that improve clinical efficacy, we generated more than 18 ES cell lines resistant to IGF-1R- or mTOR-targeted therapy. Two small-molecule inhibitors of IGF-1R were chosen, NVP-ADW-742 (IGF-1R-selective) and OSI-906 (a dual IGF-1R/ insulin receptor alpha [IR-a] inhibitor). Reverse-phase protein lysate arrays (RPPAs) revealed proteomic changes linked to IGF- 1R/mTOR resistance, and selected proteins were validated in cell-based assays, xenografts, and within human clinical samples. All statistical tests were two-sided. Results: Novel mechanisms of resistance (MOR) emerged after dalotuzumab-, NVP-ADW-742-, and OSI-906-based targeting of IGF-1R. MOR to dalotuzumab included upregulation of IRS1, PI3K, and STAT3, as well as p38 MAPK, which was also induced by OSI-906. pEIF4E(Ser209), a key regulator of Cap-dependent translation, was induced in ridaforolimus-resistant ES cell lines. Unique drug combinations targeting IGF-1R and PI3K-alpha or Mnk and mTOR were synergistic in vivo and vitro (P < .001) as assessed respectively by Mantel-Cox and isobologram testing. Conclusions: We discovered new druggable targets expressed by chemoresistant ES cells, xenografts, and relapsed human tumors. Joint suppression of these newfound targets, in concert with IGF-1R ormTOR blockade, should improve clinical outcomes.

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IGF-1R and mTOR blockade: Novel resistance mechanisms and synergistic drug combinations for ewing sarcoma

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ASJC Scopus subject areas

MD Anderson CCSG core facilities

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