Identification of Wee1 as a target in combination with avapritinib for gastrointestinal stromal tumor treatment
Shuai Ye, Dinara Sharipova, Marya Kozinova, Lilli Klug, Jimson D’Souza, Martin G. Belinsky, Katherine J. Johnson, Margret B. Einarson, Karthik Devarajan, Yan Zhou, Samuel Litwin, Michael C. Heinrich, Ronald DeMatteo, Margaret von Mehren, James S. Duncan, Lori Rink
Shuai Ye, Dinara Sharipova, Marya Kozinova, Lilli Klug, Jimson D’Souza, Martin G. Belinsky, Katherine J. Johnson, Margret B. Einarson, Karthik Devarajan, Yan Zhou, Samuel Litwin, Michael C. Heinrich, Ronald DeMatteo, Margaret von Mehren, James S. Duncan, Lori Rink
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Research Article Oncology Therapeutics

Identification of Wee1 as a target in combination with avapritinib for gastrointestinal stromal tumor treatment

Abstract

Management of gastrointestinal stromal tumors (GISTs) has been revolutionized by the identification of activating mutations in KIT and PDGFRA and clinical application of RTK inhibitors in advanced disease. Stratification of GISTs into molecularly defined subsets provides insight into clinical behavior and response to approved targeted therapies. Although these RTK inhibitors are effective in most GISTs, resistance remains a significant clinical problem. Development of effective treatment strategies for refractory GISTs requires identification of novel targets to provide additional therapeutic options. Global kinome profiling has the potential to identify critical signaling networks and reveal protein kinases essential in GISTs. Using multiplexed inhibitor beads and mass spectrometry, we explored the majority of the kinome in GIST specimens from the 3 most common molecular subtypes (KIT mutant, PDGFRA mutant, and succinate dehydrogenase deficient) to identify kinase targets. Kinome profiling with loss-of-function assays identified an important role for G2/M tyrosine kinase, Wee1, in GIST cell survival. In vitro and in vivo studies revealed significant efficacy of MK-1775 (Wee1 inhibitor) in combination with avapritinib in KIT mutant and PDGFRA mutant GIST cell lines as well as notable efficacy of MK-1775 as a monotherapy in the engineered PDGFRA mutant line. These studies provide strong preclinical justification for the use of MK-1775 in GIST.

Authors

Shuai Ye, Dinara Sharipova, Marya Kozinova, Lilli Klug, Jimson D’Souza, Martin G. Belinsky, Katherine J. Johnson, Margret B. Einarson, Karthik Devarajan, Yan Zhou, Samuel Litwin, Michael C. Heinrich, Ronald DeMatteo, Margaret von Mehren, James S. Duncan, Lori Rink

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Figure 3

Targeting the mutant-GIST kinome signature identifies WEE1 as candidate target.

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Targeting the mutant-GIST kinome signature identifies WEE1 as candidate ...
(A) Volcano plot comparisons of KIT mutant and PDGFRA mutant GIST vs. normal gastric tissue MIB-MS kinome profiles. Differences in kinase log2 LFQ intensities among tumors and normal tissues determined by paired t test Benjamini-Hochberg adjusted P values at FDR <0.05 using Perseus software. (B) Scatter plot depicts overlap in kinases elevated or reduced determined by LFQ or s-SILAC. Regression analysis (R2) among quantitative methods was performed in Perseus software. Differential expressed kinases commonly identified by LFQ and s-SILAC quantitation (FDR <0.05) are labeled. (C) Bar graph depicts high-confident kinases log2 LFQ z scores overexpressed in mutant-GIST determined by LFQ and/or s-SILAC quantitation (FDR <0.05). (D) Associated pathways/functions of kinases overexpressed in KIT mutant and PDGFRA mutant GIST vs. normal tissues determined by quantitative MIB-MS profiling. (E) Heatmap depicting viability scores for siRNA library screen targeting high-confident kinases elevated in KIT mutant and PDGFRA mutant GIST in GIST-T1+Cas9 and GIST-T1+D842V KITKO cell lines as measured by Cell Titer Blue assay. siGL2 was negative control, viability score = 1.0. Two independent replicates were performed per cell line. (F) Quantitative RT-PCR confirmed >70% knockdown of Wee1 (top) and MAP3K3 (bottom) mRNA in both cell lines. Expression levels were normalized to HPRT. Data represent mean ± SD. GIST, gastrointestinal stromal tumor; MIB-MS, multiplexed inhibitor beads and mass spectrometry; LFQ, label-free quantitation; s-SILAC, super-SILAC.