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Concurrent inhibition of ALK and SRC kinases disrupts the ALK lung tumor cell proteome

Alberto Diaz-Jimenez, Maria J. Ramos, Barbara Helm, Sara Chocarro, Dario L. Frey, Shubham Agrawal, Kálmán Somogyi, Ursula Klingmüller, Junyan Lu, Rocı́o Sotillo

2024Drug Resistance Updates11 citationsDOIOpen Access PDF

Abstract

Precision oncology has revolutionized the treatment of ALK-positive lung cancer with targeted therapies. However, an unmet clinical need still to address is the treatment of refractory tumors that contain drug-induced resistant mutations in the driver oncogene or exhibit resistance through the activation of diverse mechanisms. In this study, we established mouse tumor-derived cell models representing the two most prevalent EML4-ALK variants in human lung adenocarcinomas and characterized their proteomic profiles to gain insights into the underlying resistance mechanisms. We showed that Eml4-Alk variant 3 confers a worse response to ALK inhibitors, suggesting its role in promoting resistance to targeted therapy. In addition, proteomic analysis of brigatinib-treated cells revealed the upregulation of SRC kinase, a protein frequently activated in cancer. Co-targeting of ALK and SRC showed remarkable inhibitory effects in both ALK-driven murine and ALK-patient-derived lung tumor cells. This combination induced cell death through a multifaceted mechanism characterized by profound perturbation of the (phospho)proteomic landscape and a synergistic suppressive effect on the mTOR pathway. Our study demonstrates that the simultaneous inhibition of ALK and SRC can potentially overcome resistance mechanisms and enhance clinical outcomes in ALK-positive lung cancer patients. ONE SENTENCE SUMMARY: Co-targeting ALK and SRC enhances ALK inhibitor response in lung cancer by affecting the proteomic profile, offering hope for overcoming resistance and improving clinical outcomes.

Topics & Concepts

Anaplastic lymphoma kinaseCancer researchLung cancerTargeted therapyOncogeneProto-oncogene tyrosine-protein kinase SrcKinaseCrizotinibDownregulation and upregulationBiologyMedicineCancerOncologyCell cycleInternal medicineCell biologyBiochemistryGeneMalignant pleural effusionLung Cancer Treatments and MutationsLung Cancer Research StudiesPI3K/AKT/mTOR signaling in cancer
Concurrent inhibition of ALK and SRC kinases disrupts the ALK lung tumor cell proteome | Litcius