SHP2 inhibition with TNO155 increases efficacy and overcomes resistance of ALK inhibitors in neuroblastoma.
Ivette Valencia-SamaLynn KeeGabriella ChristopherMichael OhhMehdi LayeghifardAdam ShlienMadeline N HayesMeredith S IrwinPublished in: Cancer research communications (2023)
Survival rates among high-risk neuroblastoma patients remain low and novel therapies for recurrent neuroblastomas are required. ALK is commonly mutated in primary and relapsed neuroblastoma tumors and ALK tyrosine kinase inhibitors (TKIs) are promising treatments for ALK-driven neuroblastoma; however, innate or adaptive resistance to single agent ALK-TKIs remain a clinical challenge. Recently, SHP2 inhibitors have been shown to overcome ALK-TKI resistance in lung tumors harboring ALK rearrangements. Here, we have assessed the efficacy of the SHP2 inhibitor TNO155 alone and in combination with the ALK-TKIs crizotinib, ceritinib, or lorlatinib for the treatment of ALK-driven neuroblastoma using in vitro and in vivo models. In comparison to wild-type, ALK-mutant neuroblastoma cell lines were more sensitive to SHP2 inhibition with TNO155. Moreover, treatment with TNO155 and ALK-TKIs synergistically reduced cell growth and promoted inactivation of ALK and MAPK signaling in ALK-mutant neuroblastoma cells. ALK-mutant cells engrafted into larval zebrafish and treated with single agents or dual SHP2/ALK inhibitors showed reduced growth and invasion. In murine ALK-mutant xenografts, tumor growth was likewise reduced or delayed, and survival was prolonged upon combinatorial treatment of TNO155 and lorlatinib. Finally, we show that lorlatinib-resistant ALK-F1174L neuroblastoma cells harbor additional RAS-MAPK pathway alterations and can be re-sensitized to lorlatinib when combined with TNO155 in vitro and in vivo. Our results report the first evaluation of TNO155 in neuroblastoma and suggest that combinatorial inhibition of ALK and SHP2 could be a novel approach to treating ALK-driven neuroblastoma, potentially including the increasingly common tumors that have developed resistance to ALK-TKIs.
Keyphrases
- advanced non small cell lung cancer
- epidermal growth factor receptor
- induced apoptosis
- oxidative stress
- signaling pathway
- chronic kidney disease
- end stage renal disease
- acute myeloid leukemia
- newly diagnosed
- acute lymphoblastic leukemia
- cell cycle arrest
- cell proliferation
- multiple myeloma
- replacement therapy
- clinical evaluation