Abstract LB-308: Combination of CTx-0294945 a highly selective inhibitor of focal adhesion kinase with bevacizumab in pre-clinical models of breast cancer

Street, Ian P.; Sylva, Marc; Lackovic, Kurt; Ganame, Danny; Holloway, G.; Anderson, Richard L.; McArthur, Grant A.; Natoli, Anthony; Doherty, Judy P.; Falk, Hanna; Kersten, Wilhelmus J A; Lessene, Romina; Leuchowius, Karl Johan; Novello, P.; Yang, Han-Kwang; Bergman, Yehudit; Camerino, Michelle; Charman, Susan C.; Gregg, Alison; Choi, Nayeon; Foitzik, Richard C.; Hemley, Catherine F.; Lunniss, Gillian; Nikac, Marica; Walker, Susan Nobel; Lovrecz, George O.; Monahan, Brian C.; Peat, Thomas S.; Robinson, Christina M.; Scott, C; Gorman, Margaret; Parker, M.W.; Holmes, Ian P.; Devlin, Michael

doi:10.1158/1538-7445.am2012-lb-308

Cancer Research

2012

DOI: 10.1158/1538-7445.am2012-lb-308

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Abstract LB-308: Combination of CTx-0294945 a highly selective inhibitor of focal adhesion kinase with bevacizumab in pre-clinical models of breast cancer

Ian P. Street¹,

Marc Sylva²,

Kurt Lackovic³

et al.

Abstract: Background: Focal adhesion kinase (FAK) is a non-receptor tyrosine kinase that provides a critical hub for signalling from at least four different classes of cellular sensing mechanisms including growth factor receptors, GPCRs, integrins and mechanical stress forces. By temporal and spatial integration of signals from these sources, FAK plays a central role in cell migration, invasion and proliferation; processes vital for tumorigenesis. The significance of FAK to the function of signal transduction pathways p… Show more

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CSIG-07EGFRvIII MEDIATED TRANSACTIVATION OF RECEPTOR TYROSINE KINASES IN GLIOMA: MECHANISM AND THERAPEUTIC IMPLICATIONS

Johns¹,

Greenall²,

Donoghue³

et al. 2015

Neuro Oncol

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A truncation mutant of the epidermal growth factor receptor, EGFRvIII, is commonly expressed in glioma, an incurable brain cancer. EGFRvIII is tumorigenic, in part, through its transactivation of other receptor tyrosine kinases (RTKs). Preventing the effects of this transactivation could form part of an effective therapy for glioma; however, the mechanism by which the transactivation occurs is unknown. Focusing on the RTK MET, we show that MET transactivation in U87MG human glioma cells in vitro is proportional to EGFRvIII activity and involves MET heterodimerization associated with a focal adhesion kinase (FAK) scaffold. The transactivation of certain other RTKs was, however, independent of FAK. Simultaneously targeting EGFRvIII (with panitumumab) and the transactivated RTKs themselves (with motesanib) in an intracranial mouse model of glioma resulted in significantly greater survival than with either agent alone, indicating that co-targeting these RTKs has potent antitumor efficacy and providing a strategy for treating EGFRvIII-expressing gliomas, which are usually refractory to treatment.

show abstract

CSIG-07EGFRvIII MEDIATED TRANSACTIVATION OF RECEPTOR TYROSINE KINASES IN GLIOMA: MECHANISM AND THERAPEUTIC IMPLICATIONS

Johns¹,

Greenall²,

Donoghue³

et al. 2015

Neuro Oncol

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show abstract

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Abstract LB-308: Combination of CTx-0294945 a highly selective inhibitor of focal adhesion kinase with bevacizumab in pre-clinical models of breast cancer

Cited by 1 publication

References 0 publications

CSIG-07EGFRvIII MEDIATED TRANSACTIVATION OF RECEPTOR TYROSINE KINASES IN GLIOMA: MECHANISM AND THERAPEUTIC IMPLICATIONS

CSIG-07EGFRvIII MEDIATED TRANSACTIVATION OF RECEPTOR TYROSINE KINASES IN GLIOMA: MECHANISM AND THERAPEUTIC IMPLICATIONS

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