Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus

Federica Di Nicolantonio; Sabrina Arena; Josep Tabernero; Stefano Grosso; Francesca Molinari; Teresa Macarulla; Mariangela Russo; Carlotta Cancelliere; Davide Zecchin; Luca Mazzucchelli; Takehiko Sasazuki; Senji Shirasawa; Massimo Geuna; Milo Frattini; José Baselga; Margherita Gallicchio; Stefano Biffo; Alberto Bardelli

doi:10.1172/JCI37539

Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus

Federica Di Nicolantonio, Sabrina Arena, Josep Tabernero, Stefano Grosso, Francesca Molinari, Teresa Macarulla, Mariangela Russo, Carlotta Cancelliere, Davide Zecchin, Luca Mazzucchelli, Takehiko Sasazuki, Senji Shirasawa, Massimo Geuna, Milo Frattini, José Baselga, Margherita Gallicchio, Stefano Biffo, Alberto Bardelli

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Personalized cancer medicine is based on the concept that targeted therapies are effective on subsets of patients whose tumors carry specific molecular alterations. Several mammalian target of rapamycin (mTOR) inhibitors are in preclinical or clinical trials for cancers, but the molecular basis of sensitivity or resistance to these inhibitors among patients is largely unknown. Here we have identified oncogenic variants of phosphoinositide-3-kinase, catalytic, α polypeptide (PIK3CA) and KRAS as determinants of response to the mTOR inhibitor everolimus. Human cancer cells carrying alterations in the PI3K pathway were responsive to everolimus, both in vitro and in vivo, except when KRAS mutations occurred concomitantly or were exogenously introduced. In human cancer cells with mutations in both PIK3CA and KRAS, genetic ablation of mutant KRAS reinstated response to the drug. Consistent with these data, PIK3CA mutant cells, but not KRAS mutant cells, displayed everolimus-sensitive translation. Importantly, in a cohort of metastatic cancer patients, the presence of oncogenic KRAS mutations was associated with lack of benefit after everolimus therapy. Thus, our results demonstrate that alterations in the KRAS and PIK3CA genes may represent biomarkers to optimize treatment of patients with mTOR inhibitors.

Lingua originale	Inglese
pagine (da-a)	2858-2866
Numero di pagine	9
Rivista	Journal of Clinical Investigation
Volume	120
Numero di pubblicazione	8
DOI	https://doi.org/10.1172/JCI37539
Stato di pubblicazione	Pubblicato - 2 ago 2010
Pubblicato esternamente	Sì

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Di Nicolantonio, F., Arena, S., Tabernero, J., Grosso, S., Molinari, F., Macarulla, T., Russo, M., Cancelliere, C., Zecchin, D., Mazzucchelli, L., Sasazuki, T., Shirasawa, S., Geuna, M., Frattini, M., Baselga, J., Gallicchio, M., Biffo, S., & Bardelli, A. (2010). Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus. Journal of Clinical Investigation, 120(8), 2858-2866. https://doi.org/10.1172/JCI37539

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title = "Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus",

abstract = "Personalized cancer medicine is based on the concept that targeted therapies are effective on subsets of patients whose tumors carry specific molecular alterations. Several mammalian target of rapamycin (mTOR) inhibitors are in preclinical or clinical trials for cancers, but the molecular basis of sensitivity or resistance to these inhibitors among patients is largely unknown. Here we have identified oncogenic variants of phosphoinositide-3-kinase, catalytic, α polypeptide (PIK3CA) and KRAS as determinants of response to the mTOR inhibitor everolimus. Human cancer cells carrying alterations in the PI3K pathway were responsive to everolimus, both in vitro and in vivo, except when KRAS mutations occurred concomitantly or were exogenously introduced. In human cancer cells with mutations in both PIK3CA and KRAS, genetic ablation of mutant KRAS reinstated response to the drug. Consistent with these data, PIK3CA mutant cells, but not KRAS mutant cells, displayed everolimus-sensitive translation. Importantly, in a cohort of metastatic cancer patients, the presence of oncogenic KRAS mutations was associated with lack of benefit after everolimus therapy. Thus, our results demonstrate that alterations in the KRAS and PIK3CA genes may represent biomarkers to optimize treatment of patients with mTOR inhibitors.",

author = "{Di Nicolantonio}, Federica and Sabrina Arena and Josep Tabernero and Stefano Grosso and Francesca Molinari and Teresa Macarulla and Mariangela Russo and Carlotta Cancelliere and Davide Zecchin and Luca Mazzucchelli and Takehiko Sasazuki and Senji Shirasawa and Massimo Geuna and Milo Frattini and Jos{\'e} Baselga and Margherita Gallicchio and Stefano Biffo and Alberto Bardelli",

year = "2010",

month = aug,

day = "2",

doi = "10.1172/JCI37539",

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Di Nicolantonio, F, Arena, S, Tabernero, J, Grosso, S, Molinari, F, Macarulla, T, Russo, M, Cancelliere, C, Zecchin, D, Mazzucchelli, L, Sasazuki, T, Shirasawa, S, Geuna, M, Frattini, M, Baselga, J, Gallicchio, M, Biffo, S & Bardelli, A 2010, 'Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus', Journal of Clinical Investigation, vol. 120, n. 8, pagg. 2858-2866. https://doi.org/10.1172/JCI37539

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T1 - Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus

AU - Di Nicolantonio, Federica

AU - Arena, Sabrina

AU - Tabernero, Josep

AU - Grosso, Stefano

AU - Molinari, Francesca

AU - Macarulla, Teresa

AU - Russo, Mariangela

AU - Cancelliere, Carlotta

AU - Zecchin, Davide

AU - Mazzucchelli, Luca

AU - Sasazuki, Takehiko

AU - Shirasawa, Senji

AU - Geuna, Massimo

AU - Frattini, Milo

AU - Baselga, José

AU - Gallicchio, Margherita

AU - Biffo, Stefano

AU - Bardelli, Alberto

PY - 2010/8/2

Y1 - 2010/8/2

N2 - Personalized cancer medicine is based on the concept that targeted therapies are effective on subsets of patients whose tumors carry specific molecular alterations. Several mammalian target of rapamycin (mTOR) inhibitors are in preclinical or clinical trials for cancers, but the molecular basis of sensitivity or resistance to these inhibitors among patients is largely unknown. Here we have identified oncogenic variants of phosphoinositide-3-kinase, catalytic, α polypeptide (PIK3CA) and KRAS as determinants of response to the mTOR inhibitor everolimus. Human cancer cells carrying alterations in the PI3K pathway were responsive to everolimus, both in vitro and in vivo, except when KRAS mutations occurred concomitantly or were exogenously introduced. In human cancer cells with mutations in both PIK3CA and KRAS, genetic ablation of mutant KRAS reinstated response to the drug. Consistent with these data, PIK3CA mutant cells, but not KRAS mutant cells, displayed everolimus-sensitive translation. Importantly, in a cohort of metastatic cancer patients, the presence of oncogenic KRAS mutations was associated with lack of benefit after everolimus therapy. Thus, our results demonstrate that alterations in the KRAS and PIK3CA genes may represent biomarkers to optimize treatment of patients with mTOR inhibitors.

AB - Personalized cancer medicine is based on the concept that targeted therapies are effective on subsets of patients whose tumors carry specific molecular alterations. Several mammalian target of rapamycin (mTOR) inhibitors are in preclinical or clinical trials for cancers, but the molecular basis of sensitivity or resistance to these inhibitors among patients is largely unknown. Here we have identified oncogenic variants of phosphoinositide-3-kinase, catalytic, α polypeptide (PIK3CA) and KRAS as determinants of response to the mTOR inhibitor everolimus. Human cancer cells carrying alterations in the PI3K pathway were responsive to everolimus, both in vitro and in vivo, except when KRAS mutations occurred concomitantly or were exogenously introduced. In human cancer cells with mutations in both PIK3CA and KRAS, genetic ablation of mutant KRAS reinstated response to the drug. Consistent with these data, PIK3CA mutant cells, but not KRAS mutant cells, displayed everolimus-sensitive translation. Importantly, in a cohort of metastatic cancer patients, the presence of oncogenic KRAS mutations was associated with lack of benefit after everolimus therapy. Thus, our results demonstrate that alterations in the KRAS and PIK3CA genes may represent biomarkers to optimize treatment of patients with mTOR inhibitors.

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U2 - 10.1172/JCI37539

DO - 10.1172/JCI37539

M3 - Article

SN - 0021-9738

VL - 120

SP - 2858

EP - 2866

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 8

ER -

Deregulation of the PI3K and KRAS signaling pathways in human cancer cells determines their response to everolimus

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