Genomic and epigenomic evolution of acquired resistance to combination therapy in esophageal squamous cell carcinoma
Qingjie Min, … , Pingsheng Fan, Qimin Zhan
Qingjie Min, … , Pingsheng Fan, Qimin Zhan
Published September 8, 2021
Citation Information: JCI Insight. 2021;6(17):e150203. https://doi.org/10.1172/jci.insight.150203.
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Clinical Research and Public Health Oncology

Genomic and epigenomic evolution of acquired resistance to combination therapy in esophageal squamous cell carcinoma

Abstract

BACKGROUND Targeted arterial infusion of verapamil combined with chemotherapy (TVCC) is an effective clinical interventional therapy for esophageal squamous cell carcinoma (ESCC), but multidrug resistance (MDR) remains the major cause of relapse or poor prognosis, and the underlying molecular mechanisms of MDR, temporal intratumoral heterogeneity, and clonal evolutionary processes of resistance have not been determined.METHODS To elucidate the roles of genetic and epigenetic alterations in the evolution of acquired resistance during therapies, we performed whole-exome sequencing on 16 serial specimens from 7 patients with ESCC at every cycle of therapeutic intervention from 3 groups, complete response, partial response, and progressive disease, and we performed whole-genome bisulfite sequencing for 3 of these 7 patients, 1 patient from each group.RESULTS Patients with progressive disease exhibited a substantially higher genomic and epigenomic temporal heterogeneity. Subclonal expansions driven by the beneficial new mutations were observed during combined therapies, which explained the emergence of MDR. Notably, SLC7A8 was identified as a potentially novel MDR gene, and functional assays demonstrated that mutant SLC7A8 promoted the resistance phenotypes of ESCC cell lines. Promoter methylation dynamics during treatments revealed 8 drug resistance protein-coding genes characterized by hypomethylation in promoter regions. Intriguingly, promoter hypomethylation of SLC8A3 and mutant SLC7A8 were enriched in an identical pathway, protein digestion and absorption, indicating a potentially novel MDR mechanism during treatments.CONCLUSION Our integrated multiomics investigations revealed the dynamics of temporal genetic and epigenetic inter- and intratumoral heterogeneity, clonal evolutionary processes, and epigenomic changes, providing potential MDR therapeutic targets in treatment-resistant patients with ESCC during combined therapies.FUNDING National Natural Science Foundation of China, Science Foundation of Peking University Cancer Hospital, CAMS Innovation Fund for Medical Sciences, Major Program of Shenzhen Bay Laboratory, Guangdong Basic and Applied Basic Research Foundation, and the third round of public welfare development and reform pilot projects of Beijing Municipal Medical Research Institutes.

Authors

Qingjie Min, Yan Wang, Qingnan Wu, Xianfeng Li, Huajing Teng, Jiawen Fan, Yiren Cao, Pingsheng Fan, Qimin Zhan

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Figure 6

Functional validation of SLC7A8 mutation in multidrug resistance.

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Functional validation of SLC7A8 mutation in multidrug resistance. (A) Co...
(A) Combination index and cell survival rate (%) of cisplatin and verapamil. (B) Immunoblotting analysis of endogenous expression of SLC7A8 (left panel) and the forced overexpression of SLC7A8-WT versus mutant SLC7A8 (SLC7A8-mut) in KYSE150 and KYSE510 cell lines (right panel). Cell viability measurement revealed that SLC7A8-mut cells represented higher cell growth rate than SLC7A8-WT cells in KYSE150 (C) and KYSE510 (D) cell lines. PI staining flow cytometry showed the apoptotic effect of SLC7A8-WT and SLC7A8-mut in KYSE150 (E) and KYSE510 (F) cell lines. KYSE150 cell was treated with 10 μM cisplatin and 20 μg/mL verapamil. KYSE510 cell was treated with 2.5 μM cisplatin and 20 μg/mL verapamil. Three independent experiments were performed. *P < 0.05, ****P < 0.0001. Data represent mean ± SD. Two-way ANOVA followed by Tukey’s multiple-comparison test was used. VER, verapamil; DPP, cisplatin; Ctrl, control; mut, mutation; COM, combination; PI, propidium iodide.