Identification of pAKT as a pharmacodynamic marker for MER kinase in human melanoma G361 cells

Autor: Yaoyu Chen, Margaret Favata, Michelle Pusey, Jun Li, Yvonne Lo, Min Ye, Richard Wynn, Xiaozhao Wang, Wenqing Yao, Yingnan Chen
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Zdroj: Biomarker Research, Vol 8, Iss 1, Pp 1-9 (2020)
Druh dokumentu: article
ISSN: 2050-7771
DOI: 10.1186/s40364-020-0184-9
Popis: Abstract Background The MER signaling pathway represents an attractive therapeutic target for human cancers. Growth arrest–specific protein 6 (GAS6)–induced MER phosphorylation is often unstable and difficult to detect without pervanadate pretreatment in human cancer cells, posing a challenge for the development of selective MER kinase inhibitors. Here, we identified phosphorylated AKT (pAKT) as a specific pharmacodynamic marker for MER kinase inhibitors in human melanoma G361 cells. Methods The expression of MER, TYRO3, and AXL were profiled among multiple human cancer cells. To determine whether they play a role in the activation of pAKT, MER and TYRO3 were selectively depleted by small, interfering RNA knockdown. In addition, using AKT phosphorylation as a readout, a high-throughput cell-based assay was established in G361 cells for evaluation of the potency of potential inhibitors of MER pathway activation. Results We demonstrated that high levels of MER and TYRO3, but not AXL, were expressed in G361 cells. In these cells, pAKT was induced by GAS6 treatment, which could be reversed by AXL/MER inhibitors. We showed that GAS6-induced pAKT is only dependent on MER kinase, but not TYRO3, in G361 cells. Furthermore, we observed a correlation in potency between inhibition of pAKT in G361 cells and pMER in MER-overexpressing Ba/F3 cells by these inhibitors. Conclusions In summary, we have demonstrated that GAS6-induced pAKT is a possible pharmacodynamic marker for the inhibition of MER kinase, and we have successfully developed a cell-based functional assay for screening small-molecule inhibitors of MER kinase for potential therapeutic utility in treating GAS6/MER-deregulated human cancers.
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