Ponatinib is a potential therapeutic approach for malignant pleural mesothelioma.

Purpose: Malignant pleural mesothelioma (MPM) is a rare and deadly malignancy. Current MPM therapies remain inadequate, and outcomes are often disappointing. New meaningful therapeutic approaches are urgently needed. Accumulating evidence indicates that the cAbl pathway promotes various tumor-stimulating processes in MPM. In this study, we sought to determine ponatinib's potential utility, a clinically approved and potent cAbl inhibitor, in MPM treatment.
Material and Methods: Four MPM lines (MSTO211H, H28, H2452, H2052) were treated with ponatinib in vitro , and their growth was assessed. Scratch wound assay was used to investigate the ponatinib effect on cell migration. The expression levels of pAbl and its downstream effectors pCrkL, pAKT, and pSTAT5 were characterized. The in vivo ponatinib effect was evaluated in human MPM cells derived tumor model.
Results: In all four MPM lines, significant expression levels of phosphorylated cAbl/Arg and pCrkl were observed. Differentially but strongly, ponatinib inhibited the in vitro cell growth and migration of all four MPM line. Western blot analysis showed that the activation of Abl signaling was blocked in the ponatinib-treated MMP lines. In keeping, the cellular levels of pAbl and its downstream effector pCrkL, pAKT, and pSTAT5 were markedly decrease following ponatinib treatment. Moreover, ponatinib treatment amplified the levels of γH2AX in cells denoting increased double-strand DNA breaks levels. Notably, ponatinib treatment reduced in vivo tumor growth and reduced pCrkl and pSTAT5 levels in tumor samples.
Conclusion: Ponatinib may offer a new therapeutic strategy for MPM patients based on cAbl signaling pathway inhibition.