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Open Access 01-12-2022 | Gastric Cancer | Research

Molecular evolutionary process of advanced gastric cancer during sequential chemotherapy detected by circulating tumor DNA

Authors: Wenqi Xi, Chenfei Zhou, Fei Xu, Debin Sun, Shengzhou Wang, Yawei Chen, Jun Ji, Tao Ma, Junwei Wu, Chengfang Shangguan, Zhenggang Zhu, Jun Zhang

Published in: Journal of Translational Medicine | Issue 1/2022

Abstract

Background

Efficacy of conventional sequential chemotherapy paradigm for advanced gastric cancer (AGC) patients has largely plateaued. Dynamic molecular changes during and after sequential chemotherapy have not been fully delineated. We aimed to profile the molecular evolutionary process of AGC patients during sequential chemotherapy by next generation sequencing (NGS) of plasma circulating tumor DNA (ctDNA).

Methods

A total of 30 chemo-naïve patients who were diagnosed with unresectable advanced or metastatic stomach adenocarcinoma were enrolled. All patients received sequential chemotherapy regimens following the clinical guideline. One hundred and eight serial peripheral blood samples were collected at baseline, radiographical assessment and disease progression. Plasma ctDNA was isolated and a customized NGS panel was used to detect the genomic features of ctDNA including single nucleotide variants (SNVs) and gene-level copy number variations (CNVs). KEGG pathway enrichment analysis was performed.

Results

Platinum-based combination chemotherapy was administrated as first-line regimen. Objective response rate was 50% (15/30). Patients with higher baseline values of copy number instability (CNI), CNVs and variant allel frequency (VAF) were more sensitive to platinum-based first-line regimens. Tumor mutation burden (TMB), CNI and CNV burden at partial response and stable disease were significantly lower than those at baseline, where at progressive disease they recovered to baseline levels. Dynamic change of TMB (ΔTMB) was correlated with progression-free survival of first-line treatment. Fluctuating changes of SNVs and gene-level CNVs could be observed during sequential chemotherapy. Under the pressure of conventional chemotherapy, the number of novel gene-level CNVs were found to be higher than that of novel SNVs. Such novel molecular alterations could be enriched into multiple common oncologic signaling pathways, including EGFR tyrosine kinase inhibitor resistance and platinum drug resistance pathways, where their distributions were found to be highly heterogenous among patients. The impact of subsequent regimens, including paclitaxel-based and irinotecan-based regimens, on the molecular changes driven by first-line therapy was subtle.

Conclusion

Baseline and dynamic changes of genomic features of ctDNA could be biomarkers for predicting response of platinum-based first-line chemotherapy in AGC patients. After treatment with standard chemotherapy regimens, convergent oncologic pathway enrichment was identified, which is yet characterized by inter-patient heterogenous gene-level CNVs.

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Title: Molecular evolutionary process of advanced gastric cancer during sequential chemotherapy detected by circulating tumor DNA
Authors: Wenqi Xi
Chenfei Zhou
Fei Xu
Debin Sun
Shengzhou Wang
Yawei Chen
Jun Ji
Tao Ma
Junwei Wu
Chengfang Shangguan
Zhenggang Zhu
Jun Zhang
Publication date: 01-12-2022
Publisher: BioMed Central
Keywords: Gastric Cancer
Gastric Cancer
Cytostatic Therapy
Published in: Journal of Translational Medicine / Issue 1/2022
Electronic ISSN: 1479-5876
DOI: https://doi.org/10.1186/s12967-022-03567-5

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