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Three-dimensional multicellular spheroid-induced 5-fluorouracil drug resistance provokes global alterations of HeLa carcinoma cells: a multi-omics analysis
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  • Lin Wang,
  • Xueting Wang,
  • Tong Wang,
  • Ying-Ping Zhuang,
  • Guan Wang
Lin Wang
East China University of Science and Technology
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Xueting Wang
East China University of Science and Technology
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Tong Wang
East China University of Science and Technology
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Ying-Ping Zhuang
East China University of Science and Technology
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Guan Wang
East China University of Science and Technology

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Abstract

Cervical cancer is a serious health problem in women around the globe, with 600 thousand new cases each year. However, the use of clinical drug is seriously dampened by the development of drug resistance, which has been evidenced to be associated with metabolic reprogramming and heterogeneity in tumor cells. Efficient in vitro tumor model is essential to improve the efficiency of drug screening and the accuracy of clinical application. Multicellular tumor spheroids (MTSs) can in a way recapitulates tumor traits in vivo, thereby representing a powerful transitional model between 2D monolayer culture and xenograft. In this study, based on the liquid overlay method, a protocol for rapid generation of the MTSs with uniform size and high reproducibility in a high-throughput manner was established. As expected, the cytotoxicity results showed that there was enhanced 5-FU resistance of HeLa carcinoma cells in 3D MTSs than 2D monolayer culture with a resistance index of 5.72. In the presence of both glucose and glutamine, HeLa carcinoma cells preferentially used glutamine as a bioenergetic substrate to support cell proliferation and maintenance under all conditions, while the ubiquitous by-product ammonium might be only recycled in the 3D MTSs. Furthermore, in order to obtain a holistic view of the molecular mechanisms that drive 5-FU resistance in 3D HeLa carcinoma cells, a multi-omics study was applied to discover hidden biological regularities. We found that in the 3D MTSs mitochondrial function-related proteins and the metabolites of the tricarboxylic acid cycle (TCA cycle) were significantly decreased, and the cellular metabolism was shifted towards glycolysis. The differences in the protein synthesis, processing, and transportation between 2D monolayer cultures and 3D MTSs was significant, mainly in the heat shock protein family, with the upregulation of protein folding function in endoplasmic reticulum (ER) which promoted the maintenance of ER homeostasis in the 3D MTSs. In addition, at the transcript and protein level, the expression of extracellular matrix (ECM) proteins (e.g., laminin and collagen) were up-regulated in the 3D MTSs, which enhanced the physical barrier of drug penetration. Summarizing, this study formulates a rapid, scalable and reproducible in vitro model of MTS for drug screening purposes, and the findings establish a critical role of glycolytic metabolism, ER hemostasis and ECM proteins expression profiling in tumor chemoresistance of HeLa carcinoma cells towards 5-FU.