Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib

Jie Huang; Wei Hu; Justin Bottsford-Miller; Tao Liu; Hee Dong Han; Behrouz Zand; Sunila Pradeep; Ju Won Roh; Duangmani Thanapprapasr; Heather J. Dalton; Chad V. Pecot; Rajesh Rupaimoole; Chunhua Lu; Bryan Fellman; Diana Urbauer; Yu Kang; Nicholas B. Jennings; Li Huang; Michael T. Deavers; Russell Broaddus; Robert L. Coleman; Anil K. Sood

doi:10.1158/1078-0432.CCR-13-2141

Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib

Jie Huang, Wei Hu, Justin Bottsford-Miller, Tao Liu, Hee Dong Han, Behrouz Zand, Sunila Pradeep, Ju Won Roh, Duangmani Thanapprapasr, Heather J. Dalton, Chad V. Pecot, Rajesh Rupaimoole, Chunhua Lu, Bryan Fellman, Diana Urbauer, Yu Kang, Nicholas B. Jennings, Li Huang, Michael T. Deavers, Russell BroaddusRobert L. Coleman, Anil K. Sood

Department of Pathology & Genomic Medicine

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Purpose: EphA2 is an attractive therapeutic target because of its diverse roles in cancer growth and progression. Dasatinib is a multikinase inhibitor that targets EphA2 and other kinases. However, reliable predictive markers and a better understanding of the mechanisms of response to this agent are needed. Experimental design: The effects of dasatinib on human uterine cancer cell lines were examined using a series of in vitro experiments, including MTT, Western blot analysis, and plasmid transfection. In vivo , an orthotopic mouse model of uterine cancer was utilized to identify the biologic effects of dasatinib. Molecular markers for response prediction and the mechanisms relevant to response to dasatinib were identified by using reverse phase protein array (RPPA), immunoprecipitation, and double immunofluorescence staining. Results: We show that high levels of CAV-1, EphA2 phosphorylation at S897, and the status of PTEN are key determinants of dasatinib response in uterine carcinoma. A set of markers essential for dasatinib response was also identified and includes CRaf, pCRaf^S338, pMAPK^T202/Y204 (mitogen-activated protein kinase [MAPK] pathway), pS6^S240/244, p70S6k^T389 (mTOR pathway), and pAKT^S473. A novel mechanism for response was discovered whereby high expression level of CAV-1 at the plasma membrane disrupts the BRaf/CRaf heterodimer and thus inhibits the activation of MAPK pathway during dasatinib treatment. Conclusions: Our in vitro and in vivo results provide a new understanding of EphA2 targeting by dasatinib and identify key predictors of therapeutic response. These findings have implications for ongoing dasatinibbased clinical trials.

Original language	English (US)
Pages (from-to)	1846-1855
Number of pages	10
Journal	Clinical Cancer Research
Volume	20
Issue number	7
DOIs	https://doi.org/10.1158/1078-0432.CCR-13-2141
State	Published - Apr 1 2014

ASJC Scopus subject areas

Medicine(all)

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10.1158/1078-0432.CCR-13-2141

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Huang, J., Hu, W., Bottsford-Miller, J., Liu, T., Han, H. D., Zand, B., Pradeep, S., Roh, J. W., Thanapprapasr, D., Dalton, H. J., Pecot, C. V., Rupaimoole, R., Lu, C., Fellman, B., Urbauer, D., Kang, Y., Jennings, N. B., Huang, L., Deavers, M. T., ... Sood, A. K. (2014). Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib. Clinical Cancer Research, 20(7), 1846-1855. https://doi.org/10.1158/1078-0432.CCR-13-2141

Huang, J, Hu, W, Bottsford-Miller, J, Liu, T, Han, HD, Zand, B, Pradeep, S, Roh, JW, Thanapprapasr, D, Dalton, HJ, Pecot, CV, Rupaimoole, R, Lu, C, Fellman, B, Urbauer, D, Kang, Y, Jennings, NB, Huang, L, Deavers, MT, Broaddus, R, Coleman, RL & Sood, AK 2014, 'Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib', Clinical Cancer Research, vol. 20, no. 7, pp. 1846-1855. https://doi.org/10.1158/1078-0432.CCR-13-2141

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title = "Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib",

abstract = "Purpose: EphA2 is an attractive therapeutic target because of its diverse roles in cancer growth and progression. Dasatinib is a multikinase inhibitor that targets EphA2 and other kinases. However, reliable predictive markers and a better understanding of the mechanisms of response to this agent are needed. Experimental design: The effects of dasatinib on human uterine cancer cell lines were examined using a series of in vitro experiments, including MTT, Western blot analysis, and plasmid transfection. In vivo , an orthotopic mouse model of uterine cancer was utilized to identify the biologic effects of dasatinib. Molecular markers for response prediction and the mechanisms relevant to response to dasatinib were identified by using reverse phase protein array (RPPA), immunoprecipitation, and double immunofluorescence staining. Results: We show that high levels of CAV-1, EphA2 phosphorylation at S897, and the status of PTEN are key determinants of dasatinib response in uterine carcinoma. A set of markers essential for dasatinib response was also identified and includes CRaf, pCRafS338, pMAPKT202/Y204 (mitogen-activated protein kinase [MAPK] pathway), pS6S240/244, p70S6kT389 (mTOR pathway), and pAKTS473. A novel mechanism for response was discovered whereby high expression level of CAV-1 at the plasma membrane disrupts the BRaf/CRaf heterodimer and thus inhibits the activation of MAPK pathway during dasatinib treatment. Conclusions: Our in vitro and in vivo results provide a new understanding of EphA2 targeting by dasatinib and identify key predictors of therapeutic response. These findings have implications for ongoing dasatinibbased clinical trials.",

author = "Jie Huang and Wei Hu and Justin Bottsford-Miller and Tao Liu and Han, {Hee Dong} and Behrouz Zand and Sunila Pradeep and Roh, {Ju Won} and Duangmani Thanapprapasr and Dalton, {Heather J.} and Pecot, {Chad V.} and Rajesh Rupaimoole and Chunhua Lu and Bryan Fellman and Diana Urbauer and Yu Kang and Jennings, {Nicholas B.} and Li Huang and Deavers, {Michael T.} and Russell Broaddus and Coleman, {Robert L.} and Sood, {Anil K.}",

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doi = "10.1158/1078-0432.CCR-13-2141",

language = "English (US)",

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pages = "1846--1855",

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TY - JOUR

T1 - Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib

AU - Huang, Jie

AU - Hu, Wei

AU - Bottsford-Miller, Justin

AU - Liu, Tao

AU - Han, Hee Dong

AU - Zand, Behrouz

AU - Pradeep, Sunila

AU - Roh, Ju Won

AU - Thanapprapasr, Duangmani

AU - Dalton, Heather J.

AU - Pecot, Chad V.

AU - Rupaimoole, Rajesh

AU - Lu, Chunhua

AU - Fellman, Bryan

AU - Urbauer, Diana

AU - Kang, Yu

AU - Jennings, Nicholas B.

AU - Huang, Li

AU - Deavers, Michael T.

AU - Broaddus, Russell

AU - Coleman, Robert L.

AU - Sood, Anil K.

PY - 2014/4/1

Y1 - 2014/4/1

N2 - Purpose: EphA2 is an attractive therapeutic target because of its diverse roles in cancer growth and progression. Dasatinib is a multikinase inhibitor that targets EphA2 and other kinases. However, reliable predictive markers and a better understanding of the mechanisms of response to this agent are needed. Experimental design: The effects of dasatinib on human uterine cancer cell lines were examined using a series of in vitro experiments, including MTT, Western blot analysis, and plasmid transfection. In vivo , an orthotopic mouse model of uterine cancer was utilized to identify the biologic effects of dasatinib. Molecular markers for response prediction and the mechanisms relevant to response to dasatinib were identified by using reverse phase protein array (RPPA), immunoprecipitation, and double immunofluorescence staining. Results: We show that high levels of CAV-1, EphA2 phosphorylation at S897, and the status of PTEN are key determinants of dasatinib response in uterine carcinoma. A set of markers essential for dasatinib response was also identified and includes CRaf, pCRafS338, pMAPKT202/Y204 (mitogen-activated protein kinase [MAPK] pathway), pS6S240/244, p70S6kT389 (mTOR pathway), and pAKTS473. A novel mechanism for response was discovered whereby high expression level of CAV-1 at the plasma membrane disrupts the BRaf/CRaf heterodimer and thus inhibits the activation of MAPK pathway during dasatinib treatment. Conclusions: Our in vitro and in vivo results provide a new understanding of EphA2 targeting by dasatinib and identify key predictors of therapeutic response. These findings have implications for ongoing dasatinibbased clinical trials.

AB - Purpose: EphA2 is an attractive therapeutic target because of its diverse roles in cancer growth and progression. Dasatinib is a multikinase inhibitor that targets EphA2 and other kinases. However, reliable predictive markers and a better understanding of the mechanisms of response to this agent are needed. Experimental design: The effects of dasatinib on human uterine cancer cell lines were examined using a series of in vitro experiments, including MTT, Western blot analysis, and plasmid transfection. In vivo , an orthotopic mouse model of uterine cancer was utilized to identify the biologic effects of dasatinib. Molecular markers for response prediction and the mechanisms relevant to response to dasatinib were identified by using reverse phase protein array (RPPA), immunoprecipitation, and double immunofluorescence staining. Results: We show that high levels of CAV-1, EphA2 phosphorylation at S897, and the status of PTEN are key determinants of dasatinib response in uterine carcinoma. A set of markers essential for dasatinib response was also identified and includes CRaf, pCRafS338, pMAPKT202/Y204 (mitogen-activated protein kinase [MAPK] pathway), pS6S240/244, p70S6kT389 (mTOR pathway), and pAKTS473. A novel mechanism for response was discovered whereby high expression level of CAV-1 at the plasma membrane disrupts the BRaf/CRaf heterodimer and thus inhibits the activation of MAPK pathway during dasatinib treatment. Conclusions: Our in vitro and in vivo results provide a new understanding of EphA2 targeting by dasatinib and identify key predictors of therapeutic response. These findings have implications for ongoing dasatinibbased clinical trials.

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Cross-talk between EphA2 and BRaf/CRaf is a key determinant of response to dasatinib

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