Radiosensitization of HNSCC cells by EGFR inhibition depends on the induction of cell cycle arrests

Kriegs, Malte; Kasten-Pisula, Ulla; Riepen, Britta; Hoffer, Konstantin; Struve, Nina; Myllynen, Laura; Braig, Friederike; Binder, Mascha; Rieckmann, Thorsten; Grénman, Reidar; Petersen, Cordula; Dikomey, Ekkehard; Rothkamm, Kai

doi:10.18632/oncotarget.9161

Cited by 18 publications

(15 citation statements)

References 32 publications

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“…The effects of sorafenib on MET and EGFR phosphorylation (Figure A) as well as the effect on cell survival with and without X‐irradiation (Figure B,C and Supporting Information Figure S1B) were confirmed using SAS as a second responder line . Although a reasonable block of HNSCC proliferation can be induced by EGFR inhibition, only minor cell inactivation and no efficient radiosensitization can be achieved as described recently . Therefore, EGFR inhibition is probably not the cause for sorafenib‐mediated cytotoxicity or radiosensitization, arguing for MET inhibition as the potential cause of sorafenib‐mediated cellular effects.…”

Section: Resultssupporting

confidence: 72%

Receptor tyrosine kinase MET as potential target of multi‐kinase inhibitor and radiosensitizer sorafenib in HNSCC

et al. 2018

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Background: The multi-kinase inhibitor sorafenib displays antitumoral effects in head and neck squamous cell carcinoma (HNSCC); however, the targeted kinases are unknown. Here we aimed to identify those kinases to determine the mechanism of sorafenib-mediated effects and establish candidate biomarkers for patient stratification. Methods: The effects of sorafenib and MET inhibitors crizotinib and SU11274 were analyzed using a slide-based antibody array, Western blotting, proliferation, and survival assays. X-rays were used for irradiations. Results: Sorafenib inhibited auto-phosphorylation of epidermal growth factor receptor and MET, which has not been described previously. MET expression in HNSCC cells was not always associated with activity/phosphorylation. Furthermore, sorafenib-dependent cell kill and radiosensitization was not associated with MET level. Although MET inhibitors blocked proliferation, they caused only mild cytotoxicity and no radiosensitization. Conclusion: We identified MET as a new potential target of sorafenib. However, MET inhibition is not the cause for sorafenib-mediated cytotoxicity or radiosensitization.

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Section: Resultssupporting

confidence: 72%

Receptor tyrosine kinase MET as potential target of multi‐kinase inhibitor and radiosensitizer sorafenib in HNSCC

et al. 2018

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“…PI3K/AKT/MTOR pathway sensitized endometrial cells to PARP inhibitors [46] . Conversely, inhibition of the EGFR signaling pathway has previously been shown not to induce radiosensitization in the cell lines used in the study [47] . The UT-SCC-15 cell line and xenograft is more radioresistant than UT-SCC-14 [48] .…”

Section: Discussionmentioning

confidence: 81%

Dual blockade of PI3K and MEK in combination with radiation in head and neck cancer

Blas

Wilson

Tonlaar

et al. 2018

Clinical and Translational Radiation Oncology

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Background and purposeIn this study we have combined fractionated radiation treatment (RT) with two molecular targeted agents active against key deregulated signaling pathways in head and neck cancer.Materials and methodsWe used two molecularly characterized, low passage HNSCC cell lines of differing biological characteristics to study the effects of binimetinib and buparlisib in combination with radiation in vitro and in vivo.ResultsBuparlisib was active against both cell lines in vitro whereas binimetinib was more toxic to UT-SCC-14. Neither agent modified radiation sensitivity in vitro. Buparlisib significantly inhibited growth of UT-SSC-15 alone or in combination with RT but was ineffective in UT-SCC-14. Binimetinib did cause a significant delay with RT in UT-SCC-14 and it significantly reduced growth of the UT-SCC-15 tumors both alone and with RT. The tri-modality treatment was not as effective as RT with a single effective agent.ConclusionsNo significant benefit was gained by the combined use of the two agents with RT even though each was efficacious when used alone.

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“…However, in HPV(À) cell lines we recently observed a similar phenomenon. Radiosensitization upon EGFR-inhibition was only evident in preplating assays and was largely restricted to p53-positive tumor cells [21,22]. We could show that the reason for radiosensitization conferred by EGFR inhibition in preplating assays was the induction of a long-term G1 and, in case of the only p53-deficient responder, G2-arrest in addition to the cell cycle arrests induced by radiation alone.…”

Section: Discussionmentioning

confidence: 82%

G2-checkpoint targeting and radiosensitization of HPV/p16-positive HNSCC cells through the inhibition of Chk1 and Wee1

Busch

Kröger

Jensen

et al. 2017

Radiotherapy and Oncology

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Radiosensitization of HNSCC cells by EGFR inhibition depends on the induction of cell cycle arrests

Cited by 18 publications

References 32 publications

Receptor tyrosine kinase MET as potential target of multi‐kinase inhibitor and radiosensitizer sorafenib in HNSCC

Receptor tyrosine kinase MET as potential target of multi‐kinase inhibitor and radiosensitizer sorafenib in HNSCC

Dual blockade of PI3K and MEK in combination with radiation in head and neck cancer

G2-checkpoint targeting and radiosensitization of HPV/p16-positive HNSCC cells through the inhibition of Chk1 and Wee1

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