Molecularly Defined Subsets of Ewing Sarcoma Tumors Differ in Their Responses to IGF1R and WEE1 Inhibition

Purpose: Targeted cancer therapeutics have not significantly benefited patients with Ewing sarcoma with metastatic or relapsed disease. Understanding the molecular underpinnings of drug resis-tance can lead to biomarker-driven treatment selection. Experimental Design: Receptor tyrosine kinase (RTK) pathway activation was analyzed in tumor cells derived from a panel of Ewing sarcoma tumors, including primary and metastatic tumors from the same patient. Phospho-RTK arrays, Western blots, and IHC were used. Protein localization and the levels of key markers were determined using immunofluorescence. DNA damage tolerance was measured through PCNA ubiquitination levels and the DNA fiber assay. Effects of pharmacologic inhibition were assessed in vitro and key results validated in vivo using patient-derived xenografts. Results: Ewing sarcoma tumors fell into two groups. In one, IGF1R was predominantly nuclear (nIGF1R), DNA damage tolerance pathway was upregulated, and cells had low replication stress and RRM2B levels and high levels of WEE1 and RAD21. These tumors were relatively insensitive to IGF1R inhibition. The second group had high replication stress and RRM2B, low levels of WEE1 and RAD21, membrane-associated IGF1R (mIGF1R) sig-naling, and sensitivity to IGF1R or WEE1-targeted inhibitors. Moreover, the matched primary and metastatic tumors differed in IGF1R localization, levels of replication stress, and inhibitor sen-sitivity. In all instances, combined IGF1R and WEE1 inhibition led to tumor regression. Conclusions: IGF1R signaling mechanisms and replication stress levels can vary among Ewing sarcoma tumors (including in the same patient), influencing the effects of IGF1R and WEE1 treatment. These findings make the case for using biopsy-derived predictive biomarkers at multiple stages of Ewing sarcoma disease management.

Automated summary

This study analyzed the activation of receptor tyrosine kinase (RTK) pathway in Ewing sarcoma tumors and found that the tumors could be divided into two groups, one insensitive to IGF1R inhibition and the other sensitive to IGF1R or WEE1-targeted inhibitors. Primary and metastatic tumors also exhibited differences in IGF1R localization, replication stress levels, and inhibitor sensitivity. Combined inhibition of IGF1R and WEE1 led to tumor regression. These findings highlight the importance of using biopsy-derived predictive biomarkers at multiple stages of Ewing sarcoma disease management.