Patient-derived tumor organoids from resected non-small cell lung cancers for high-throughput response testing with approved and repurposed drugs

Author:

Suvilesh Kanve N.ORCID,Manjunath Yariswamy,Nussbaum Yulia I.,Gadelkarim Mohamed,Srivastava Akhil,Li Guangfu,Warren Wesley C.,Shyu Chi-Ren,Gao Feng,Ciorba Matthew A.,Mitchem Jonathan B.,Rachagani Satyanarayana,Kaifi Jussuf T.

Abstract

ABSTRACTBackgroundThe five-year survival for non-metastatic non-small cell lung cancer (NSCLC) patients undergoing curative surgery remains poor at ∼50% that is due to locoregional and/or distant metastatic recurrences. Patient-derived tumor organoids (PDTOs) have high potential as clinically relevant high-throughput drug testing platforms to personalize and improve treatment of NSCLC patients. We aimed to develop PDTOs from non-metastatic NSCLC patients to assess their suitability to study tumor heterogeneities and personalized drug responses.MethodsTen non-metastatic (stage I-IIIA) NSCLC patients undergoing curative surgical resection were prospectively enrolled. PDTOs were established from resected lung tumor tissues and were compared with matched primary tumors by histopathology, immunohistochemistry, whole exome and whole transcriptome sequencing analysis. PDTO responses to standard of care carboplatin/paclitaxel chemotherapy were determined by measuring organoid growth using bright-field 3D imaging. Transcriptomic differential gene expression analysis identified molecular targets for drug repurposing to overcome chemoresistance.ResultsNSCLC PDTOs were successfully generated from all 10 (100%) primary tumors with a median time of 12 days (range 4-16 days). All 10 PDTOs could be grown from cryopreserved tumor tissues or reconstituted from frozen PDTOs (living biobank). PDTOs retained histopathological, immunohistochemical protein expression and mutational landscape of the matched primary tumors. Microenvironment cell population analysis revealed epithelial cell signatures of the PDTOs that matched the patients’ lung tumor tissues. Treatment responses of PDTOs to carboplatin/paclitaxel were determined by growth differences versus vehicle control group. 5/10 (50%) PDTOs were chemo-sensitive, whereas 5/10 (50%) were chemo-resistant. Upregulation of aldo-keto reductases (AKR1B10/15) was observed in chemoresistant PDTOs by differential gene expression analysis and confirmed by real-time PCR and immunohistochemistry in PDTOs and tumor tissues. Epalrestat, an anti-diabetic AKR1B10 inhibitory drug, was repurposed to effectively sensitize PDTOs to carboplatin/paclitaxel.ConclusionsPDTOs can be established from resected NSCLC primary tumor tissues with high success rates and conserve cellular, molecular and genomic characteristics of the matched NSCLC tumors. PDTOs can serve as clinically applicable and relevant personalized drug screening platforms to evaluate the therapeutic efficacy of drugs, including repurposed drugs, to overcome chemoresistance.

Publisher

Cold Spring Harbor Laboratory

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