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Boos, Sophie L.; Loevenich, Leon P.; Vosberg, Sebastian; Engleitner, Thomas; Öllinger, Rupert; Kumbrink, Joerg; Rokavec, Matjaz; Michl, Marlies; Greif, Philipp A.; Jung, Andreas; Hermeking, Heiko; Neumann, Jens; Kirchner, Thomas; Rad, Roland und Jung, Peter (2022): Disease Modeling on Tumor Organoids Implicates AURKA as a Therapeutic Target in Liver Metastatic Colorectal Cancer. In: Cellular and Molecular Gastroenterology and Hepatology, Bd. 13, Nr. 2: S. 517-540

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Abstract

BACKGROUND & AIMS: Patient-derived tumor organoids recapitulate the characteristics of colorectal cancer (CRC) and provide an ideal platform for preclinical evaluation of personalized treatment options. We aimed to model the acquisition of chemotolerance during first-line combination chemotherapy in metastatic CRC organoids. METHODS: We performed next-generation sequencing to study the evolution of KRAS wild-type CRC organoids during adaptation to irinotecan-based chemotherapy combined with epidermal growth factor receptor (EGFR) inhibition. Clustered regularly interspaced short palindromic repeats (CRISPR)/ CRISPR-associated 9 protein (Cas9)-editing showed the specific effect of KRAS(G12D) acquisition in drug-tolerant organoids. Compound treatment strategies involving Aurora kinase A (AURKA) inhibition were assessed for their capability to induce apoptosis in a drug-persister background. Immunohistochemical detection of AURKA was performed on a patient-matched cohort of primary tumors and derived liver metastases. RESULTS: Adaptation to combination chemotherapy was accompanied by transcriptomic rather than gene mutational alterations in CRC organoids. Drug-tolerant cells evaded apoptosis and up-regulated MYC (c-myelocytomatosis oncogene product)/E2F1 (E2 family transcription factor 1) and/or interferon-alpha-related gene expression. Introduction of KRAS(G12D) further increased the resilience of drug-persister CRC organoids against combination therapy. AURKA inhibition restored an apoptotic response in drug-tolerant KRAS-wild-type organoids. In dual epidermal growth factor receptor (EGFR)-pathway blockade-primed CRC organoids expressing KRAS(G12D), AURKA inhibition augmented apoptosis in cases that had acquired increased c-MYC protein levels during chemo-tolerance development. In patient-matched CRC cohorts, AURKA expression was increased in primary tumors and derived liver metastases. CONCLUSIONS: Our study emphasizes the potential of patient-derived CRC organoids in modeling chemotherapy tolerance ex vivo. The applied therapeutic strategy of dual EGFR pathway blockade in combination with AURKA inhibition may prove effective for second-line treatment of chemotolerant CRC liver metastases with acquired KRAS mutation and increased AURKA/c-MYC expression.

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