10 Cabozantinib Capecitabine Myths Unveiled

Recent findings from Pillay and colleagues recommend that inhibition of a dominant oncogene by targeted therapy also can alter the hierarchy of receptor tyrosine kinases, resulting in fast therapeutic resistance.

Certainly, accessible data imply that c MET could be a clinically pertinent therapeutic target for some individuals with acquired resistance to gefitinib or erlotinib, specifically offered Cabozantinib that MET gene amplification occurs independently of EGFRT790M mutations. The presence of MET gene amplification in combination with gain of function drug sensitive EGFR mutations could together lead to cellular changes that confer enhanced fitness to cells bearing both alterations. However, other mechanisms could contribute to disease progression in such patients. As the mechanism of interaction between HGF/c MET and resistance remains unclear, further research into crosstalk and balance between these two signal pathways remains critical and necessary for the development of novel anticancer therapies.

For c MET, further consideration needs to be given to the fact that genetic alterations of the kinase can induce oncogene addiction and therefore possibly aid prediction of therapeutic responsiveness. Importantly, research from Comoglio and colleagues has highlighted that preclinical investigations of developmental c MET inhibitors appear to utilize NSCLC a vast array of differing cell lines, most of which tend not to be genetically characterized. Capecitabine Clearly, to enable identification and recruitment of potentially responsive patients in future studies, the rational selection of genetically defined cell lines will need to become mandatory, in order to lead to the development of reliable in vitro models for the testing of c MET inhibition. Future models will need to be able to clearly display signaling abnormalities of c MET and also to respond to c MET inactivation with a distinct and measurable phenotypic readout.

The potential efficacy of each of these different therapeutic agents is likely to be influenced by the mechanism of aberrant HGF/c MET signaling pathway activation in a particular cancer but will also hopefully offer a promising new strategy for cancer treatment, either alone or as part of a combination therapeutic approach.