Exploiting the Therapeutic Interaction of WNT Pathway Activation and Asparaginase for Colorectal Cancer Therapy

Wnt信号通路 结直肠癌 癌症研究 大肠癌小鼠模型的建立 生物 癌症 连环素 医学 信号转导 遗传学
作者
Laura Hinze,Roxane Labrosse,James Degar,Teng Han,Emma M. Schatoff,Sabine Schreek,Salmaan Karim,Connor McGuckin,Joshua R. Sacher,Florence F. Wagner,Martin Stanulla,Chen Yuan,Ewa Sicińska,Marios Giannakis,Kimmie Ng,Lukas E. Dow,Alejandro Gutiérrez
出处
期刊:Cancer Discovery [American Association for Cancer Research]
卷期号:10 (11): 1690-1705 被引量:46
标识
DOI:10.1158/2159-8290.cd-19-1472
摘要

Abstract Colorectal cancer is driven by mutations that activate canonical WNT/β-catenin signaling, but inhibiting WNT has significant on-target toxicity, and there are no approved therapies targeting dominant oncogenic drivers. We recently found that activating a β-catenin–independent branch of WNT signaling that inhibits GSK3-dependent protein degradation induces asparaginase sensitivity in drug-resistant leukemias. To test predictions from our model, we turned to colorectal cancer because these cancers can have WNT-activating mutations that function either upstream (i.e., R-spondin fusions) or downstream (APC or β-catenin mutations) of GSK3, thus allowing WNT/β-catenin and WNT-induced asparaginase sensitivity to be unlinked genetically. We found that asparaginase had little efficacy in APC or β-catenin–mutant colorectal cancer, but was profoundly toxic in the setting of R-spondin fusions. Pharmacologic GSK3α inhibition was sufficient for asparaginase sensitization in APC or β-catenin–mutant colorectal cancer, but not in normal intestinal progenitors. Our findings demonstrate that WNT-induced therapeutic vulnerabilities can be exploited for colorectal cancer therapy. Significance: Solid tumors are thought to be asparaginase-resistant via de novo asparagine synthesis. In leukemia, GSK3α-dependent protein degradation, a catabolic amino acid source, mediates asparaginase resistance. We found that asparaginase is profoundly toxic to colorectal cancers with WNT-activating mutations that inhibit GSK3. Aberrant WNT activation can provide a therapeutic vulnerability in colorectal cancer. See related commentary by Davidsen and Sullivan, p. 1632. This article is highlighted in the In This Issue feature, p. 1611
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