Single-cell RNA sequencing reveals the lineage of malignant epithelial cells and upregulation of TAGLN2 promotes peritoneal metastasis in gastric cancer

Chengbo Ji; Junjie Zhao; Hao Chen; Zhaoming Wang; Tianyi Cai; Chenyu Tian; Chen Wang; Dan Liu; Botian Ye; Min Fu; Jie Sun; Haojie Li; Xuefei Wang; Yihong Sun

Ayuda

Single-cell RNA sequencing reveals the lineage of malignant epithelial cells and upregulation of TAGLN2 promotes peritoneal metastasis in gastric cancer

Chengbo Ji ^[1] ; Junjie Zhao ^[1] ; Hao Chen ^[1] ; Zhaoming Wang ^[1] ; Tianyi Cai ^[1] ; Chenyu Tian ^[1] ; Chen Wang ^[1] ; Dan Liu ^[1] ; Botian Ye ^[1] ; Min Fu ^[1] ; Jie Sun ^[1] ; Haojie Li ^[1] ; Xuefei Wang ^[1] ; Yihong Sun ^[1]
1. [1] Zhongshan Hospital
  
  Zhongshan Hospital
  
  China
Localización: Clinical & translational oncology, ISSN 1699-048X, Vol. 25, Nº. 12 (December), 2023, págs. 3405-3419
Idioma: inglés
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Resumen
- Background Peritoneal metastasis (PM) is an important factor contributing to poor prognosis in patients with gastric cancer (GC). Transcriptomic sequencing has been used to explore the molecular changes in metastatic cancers, but comparing the bulk RNA-sequencing data between primary tumors and metastases in PM studies is unreasonable due to the small proportion of tumor cells in PM tissues.
  
  Methods We performed single-cell RNA-sequencing analysis on four gastric adenocarcinoma specimens, including one primary tumor sample (PT), one adjacent nontumoral sample (PN), one peritoneal metastatic sample (MT) and one normal peritoneum sample (MN), from the same patient. Pseudotime trajectory analysis was used to display the process by which nonmalignant epithelial cells transform into tumor cells and then metastasize to the peritoneum. Finally, in vitro and in vivo assays were used to validate one of the selected genes that promote peritoneal metastasis.
  
  Results Single-cell RNA sequencing showed that a development curve was found from normal mucosa to tumor tissues and then into metastatic sites on peritoneum. TAGLN2 was found to trigger this metastasis process. The migration and invasion capability of GC cells were changed by downregulating and upregulating TAGLN2 expression. Mechanistically, TAGLN2 might modulate tumor metastasis via alterations in cell morphology and several signaling pathways, thus promoting epithelial–mesenchymal transition (EMT).
  
  Conclusions In summary, we identified and validated TAGLN2 as a novel gene involved in GC peritoneal metastasis. This study provided valuable insight into the mechanisms of GC metastasis and developed a potential therapeutic target to prevent GC cell dissemination.