Abstract

Lung cancer is the leading cause of cancer death worldwide. Cisplatin is the major DNA-damaging anticancer drug that cross-links the DNA in cancer cells, but many patients inevitably develop resistance with treatment. Identification of a cisplatin sensitizer might postpone or even reverse the development of cisplatin resistance. Halofuginone (HF), a natural small molecule isolated from Dichroa febrifuga, has been found to play an antitumor role. In this study, we found that HF inhibited the proliferation, induced G0/G1 phase arrest, and promoted apoptosis in lung cancer cells in a dose-dependent manner. To explore the underlying mechanism of this antitumor effect of halofuginone, we performed RNA sequencing to profile transcriptomes of NSCLC cells treated with or without halofuginone. Gene expression profiling and KEGG analysis indicated that PI3K/AKT and MAPK signaling pathways were top-ranked pathways affected by halofuginone. Moreover, combination of cisplatin and HF revealed that HF could sensitize the cisplatin-resistant patient-derived lung cancer organoids and lung cancer cells to cisplatin treatment. Taken together, this study identified HF as a cisplatin sensitizer and a dual pathway inhibitor, which might provide a new strategy to improve prognosis of patients with cisplatin-resistant lung cancer.

Highlights

  • Lung cancer is the most commonly diagnosed cancer (11.4% of the total cases) and the leading cause of cancer death (18% of the total cancer deaths) worldwide (Sung et al, 2021)

  • We evaluated the effects of HF on cisplatinresistant lung cancer Patient-derived organoids (PDOs) and cells to determine whether it acted as a sensitizer

  • Natural products were primarily screened in 1 PDO and validated in six PDO models which completed by K2 Oncology Co., Ltd

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Summary

Introduction

Lung cancer is the most commonly diagnosed cancer (11.4% of the total cases) and the leading cause of cancer death (18% of the total cancer deaths) worldwide (Sung et al, 2021). Obvious progression has been made in surgical and pharmacological therapies for lung cancer, relapses of lung cancer are frequently documented with stronger drug resistance than primary tumor (Chen H.Z. et al, 2021). Platinum and its derivatives are still the major choice for chemotherapy against cancers. Platinum-based chemotherapy drugs are often confronted with the problem of drug resistance, and the cancers with drug resistance are usually incurable. Finding novel sensitizers which can be used in combination with platinum to improve the clinical utility of platinum has attracted close attention from researchers in oncology, pharmacology, and chemistry worldwide.

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