Hypoxia leads to decreased autophosphorylation of the MET receptor but promotes its resistance to tyrosine kinase inhibitors
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Meriem Sarah Mekki1, Alexandra Mougel2, Audrey Vinchent1, Charlotte Paquet1, Marie-Christine Copin1,3, Catherine Leroy1, Zoulika Kherrouche1, Jean-Paul Bonte4, Oleg Melnyk2, Jérôme Vicogne2 and David Tulasne1
1University Lille, CNRS, Institut Pasteur de Lille, UMR 8161 - M3T – Mechanisms of Tumorigenesis and Target Therapies, F-59000 Lille, France
2University of Lille, CNRS, Inserm, CHU Lille, Institut Pasteur de Lille, U1019 - UMR 8204 - CIIL -Centre d'Infection et d'Immunité de Lille, F-59000 Lille, France
3University Lille, Institut de Pathologie, CHU Lille, Avenue Oscar Lambret, F-59000 Lille, France
4EA 4481 Faculté des Sciences Pharmaceutiques et Biologiques, Université de Lille, 59006 Lille, France
Jérôme Vicogne, email: email@example.com
David Tulasne, email: firstname.lastname@example.org
Keywords: receptor tyrosine kinase; hepatocyte growth factor/scatter factor; MET; hypoxia; tyrosine kinase inhibitor
Received: November 19, 2015 Accepted: May 08, 2018 Published: June 05, 2018
The receptor tyrosine kinase MET and its ligand, the Hepatocyte Growth Factor/Scattor Factor (HGF/SF), are essential to the migration, morphogenesis, and survival of epithelial cells. In addition, dysregulation of MET signaling has been shown to promote tumor progression and invasion in many cancers. Therefore, HGF/SF and MET are major targets for chemotherapies. Improvement of targeted therapies requires a perfect understanding of tumor microenvironment that strongly modifies half-life, bio-accessibility and thus, efficacy of treatments. In particular, hypoxia is a crucial microenvironmental phenomenon promoting invasion and resistance to treatments.
Under hypoxia, MET auto-phosphorylation resulting from ligand stimulation or from receptor overexpression is drastically decreased within minutes of oxygen deprivation but is quickly reversible upon return to normoxia. Besides a decreased phosphorylation of its proximal adaptor GAB1 under hypoxia, activation of the downstream kinases Erk and Akt is maintained, while still being dependent on MET receptor. Consistently, several cellular responses induced by HGF/SF, including motility, morphogenesis, and survival are effectively induced under hypoxia. Interestingly, using a semi-synthetic ligand, we show that HGF/SF binding to MET is strongly impaired during hypoxia but can be quickly restored upon reoxygenation. Finally, we show that two MET-targeting tyrosine kinase inhibitors (TKIs) are less efficient on MET signalling under hypoxia. Like MET loss of phosphorylation, this hypoxia-induced resistance to TKIs is reversible under normoxia. Thus, although hypoxia does not affect downstream signaling or cellular responses induced by MET, it causes immediate resistance to TKIs. These results may prove useful when designing and evaluation of MET-targeted therapies against cancer.
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