posted on 2022-03-16, 13:05authored byZhanwu Hou, Caiting Meng, Fei Yang, Yujiao Deng, Xiao Han, Huadong Liu
Tyrosine kinases (TKs) are prominent
targets in cancer therapies,
and more than 30 TK inhibitors have been approved for treatments in
tumors with abnormal TK. Disappointingly, an incomplete response can
occur with the long-term use of TK inhibitors, known as cancer drug
resistance, which can be caused by kinome reprogramming. Hence, monitoring
the status of TKs is crucial for revealing the underlying drug resistance
mechanism. Here, we describe a TK activity-representing peptide library-based
multiple reaction monitoring (TARPL-MRM) strategy for directly inferring
TK activities. The strategy facilitated the assay of 87 human TKs
through target quantification of 301 phosphorylation sites. Using
this strategy, we demonstrated the heterogeneity of TK activity in
different non-small cell lung cancer (NSCLC) cell lines and assessed
the response of TK activities to the EGFR inhibitor AZD9291 in NSCLC
cells. We found that the acquired resistance of H1975 cells to AZD9291
requires SRC activity, and inhibition of SRC plays potential roles
in overcoming this resistance. In summary, our work reveals that this
strategy has the potential to become a powerful tool for TK studies,
clinical diagnostics, and the discovery of new therapeutic targets.