PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models

PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models

Abstract Background The MET receptor tyrosine kinase represents a promising target in cancer. PIK3CA activating mutations are common in several tumor types and can potentially confer resistance to anti-receptor tyrosine kinase therapy. Methods MET and/or PI3K pathway inhibition was assessed in NIH3T...

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Main Authors: Lluís Nisa, Pascal Häfliger, Michaela Poliaková, Roland Giger, Paola Francica, Daniel Matthias Aebersold, Roch-Philippe Charles, Yitzhak Zimmer, Michaela Medová
Format: Article
Language:English
Published: BMC 2017-05-01
Series:Molecular Cancer
Subjects:
MET receptor tyrosine kinase
PI3K pathway
PIK3CA mutations
Resistance mechanisms
Head and neck cancer
Online Access:http://link.springer.com/article/10.1186/s12943-017-0660-5
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spelling doaj-b0561ab8e18144edb92013486a22e62a2020-11-25T00:45:39ZengBMCMolecular Cancer1476-45982017-05-0116111410.1186/s12943-017-0660-5PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer modelsLluís Nisa0Pascal Häfliger1Michaela Poliaková2Roland Giger3Paola Francica4Daniel Matthias Aebersold5Roch-Philippe Charles6Yitzhak Zimmer7Michaela Medová8Department of Clinical Research, Inselspital, Bern University Hospital, and University of BernInstitute of Biochemistry and Molecular Medicine, University of BernDepartment of Clinical Research, Inselspital, Bern University Hospital, and University of BernDepartment of Otorhinolaryngology – Head and Neck Surgery, Inselspital, Bern University Hospital, and University of BernDepartment of Clinical Research, Inselspital, Bern University Hospital, and University of BernDepartment of Clinical Research, Inselspital, Bern University Hospital, and University of BernInstitute of Biochemistry and Molecular Medicine, University of BernDepartment of Clinical Research, Inselspital, Bern University Hospital, and University of BernDepartment of Clinical Research, Inselspital, Bern University Hospital, and University of BernAbstract Background The MET receptor tyrosine kinase represents a promising target in cancer. PIK3CA activating mutations are common in several tumor types and can potentially confer resistance to anti-receptor tyrosine kinase therapy. Methods MET and/or PI3K pathway inhibition was assessed in NIH3T3 cells harboring MET-activating point mutation with or without ectopic expression of PIK3CAE545K and PIK3CAH1047R, as well as in MET-expressing head and neck cancer cells with endogenous PIK3CA mutations. Endpoints included PI3K pathway activation, cell proliferation, colony-forming ability, cell death, wound-healing, and an in vivo model. Results PIK3CAE545K and PIK3CAH1047R confer resistance to MET inhibition in MET-driven models. PIK3CAH1047R was more potent than PIK3CAE545K at inducing resistance in PI3K pathway activation, cell proliferation, colony-forming ability, induction of cell death and wound-healing upon MET inhibition. Resistance to MET inhibition could be synergistically overcome by co-targeting PI3K. Furthermore, combined MET/PI3K inhibition led to enhanced anti-tumor activity in vivo in tumors harboring PIK3CAH1047R. In head and neck cancer cells the combination of MET/PI3K inhibitors led to more-than-additive effects. Conclusions PIK3CA mutations can lead to resistance to MET inhibition, supporting future clinical evaluation of combinations of PI3K and MET inhibitors in common scenarios of malignant neoplasms featuring aberrant MET expression and PIK3CA mutations.http://link.springer.com/article/10.1186/s12943-017-0660-5MET receptor tyrosine kinasePI3K pathwayPIK3CA mutationsResistance mechanismsHead and neck cancer
collection DOAJ
language English
format Article
sources DOAJ
author Lluís Nisa
Pascal Häfliger
Michaela Poliaková
Roland Giger
Paola Francica
Daniel Matthias Aebersold
Roch-Philippe Charles
Yitzhak Zimmer
Michaela Medová
spellingShingle Lluís Nisa
Pascal Häfliger
Michaela Poliaková
Roland Giger
Paola Francica
Daniel Matthias Aebersold
Roch-Philippe Charles
Yitzhak Zimmer
Michaela Medová
PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models
Molecular Cancer
MET receptor tyrosine kinase
PI3K pathway
PIK3CA mutations
Resistance mechanisms
Head and neck cancer
author_facet Lluís Nisa
Pascal Häfliger
Michaela Poliaková
Roland Giger
Paola Francica
Daniel Matthias Aebersold
Roch-Philippe Charles
Yitzhak Zimmer
Michaela Medová
author_sort Lluís Nisa
title PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models
title_short PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models
title_full PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models
title_fullStr PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models
title_full_unstemmed PIK3CA hotspot mutations differentially impact responses to MET targeting in MET-driven and non-driven preclinical cancer models
title_sort pik3ca hotspot mutations differentially impact responses to met targeting in met-driven and non-driven preclinical cancer models
publisher BMC
series Molecular Cancer
issn 1476-4598
publishDate 2017-05-01
description Abstract Background The MET receptor tyrosine kinase represents a promising target in cancer. PIK3CA activating mutations are common in several tumor types and can potentially confer resistance to anti-receptor tyrosine kinase therapy. Methods MET and/or PI3K pathway inhibition was assessed in NIH3T3 cells harboring MET-activating point mutation with or without ectopic expression of PIK3CAE545K and PIK3CAH1047R, as well as in MET-expressing head and neck cancer cells with endogenous PIK3CA mutations. Endpoints included PI3K pathway activation, cell proliferation, colony-forming ability, cell death, wound-healing, and an in vivo model. Results PIK3CAE545K and PIK3CAH1047R confer resistance to MET inhibition in MET-driven models. PIK3CAH1047R was more potent than PIK3CAE545K at inducing resistance in PI3K pathway activation, cell proliferation, colony-forming ability, induction of cell death and wound-healing upon MET inhibition. Resistance to MET inhibition could be synergistically overcome by co-targeting PI3K. Furthermore, combined MET/PI3K inhibition led to enhanced anti-tumor activity in vivo in tumors harboring PIK3CAH1047R. In head and neck cancer cells the combination of MET/PI3K inhibitors led to more-than-additive effects. Conclusions PIK3CA mutations can lead to resistance to MET inhibition, supporting future clinical evaluation of combinations of PI3K and MET inhibitors in common scenarios of malignant neoplasms featuring aberrant MET expression and PIK3CA mutations.
topic MET receptor tyrosine kinase
PI3K pathway
PIK3CA mutations
Resistance mechanisms
Head and neck cancer
url http://link.springer.com/article/10.1186/s12943-017-0660-5
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