Mechanism of esketamine affecting proliferation,metastasis and stem cell property of colorectal cancer cells
- VernacularTitle:艾司氯胺酮影响结直肠癌细胞增殖、转移和干细胞特性的机制研究
- Author:
Yafei ZHANG
1
;
Yufang LIU
;
Yanbin TANG
;
Xingzhi LIAO
Author Information
- Keywords: esketamine; colorectal cancer; stem cell properties; epithelial-mesenchymal transition; NANOG homeobox; SRY-box transcription factor; neurogenic locus Notch homolog pro-tein 1; intracellular domain
- From: Journal of Clinical Medicine in Practice 2025;29(17):43-48
- CountryChina
- Language:Chinese
- Abstract: Objective To investigate the effects and related molecular mechanisms of esket-amine on the proliferation,epithelial-mesenchymal transition(EMT),and stem cell properties of colorectal cancer(CRC)cells.Methods CRC cell line SW480 was cultured with varying concentra-tions of esketamine,and the cells were divided into blank group(0 μmol/L),low-concentration group(1 μmol/L),medium-concentration group(5 μmol/L)and high-concentration group(10 μmol/L).Cell proliferation activity was assessed using the EdU proliferation assay,cell spheroid-forming ability was evaluated via the spheroid formation assay,cell migration capacity was measured using the scratch assay,cell invasion ability was determined through the transwell assay,and the expression levels of tumor stem cell property markers[NANOG homeobox(NANOG),SRY-box transcription fac-tor(SOX)2,SOX4],the neurogenic locus Notch homolog protein 1(Notch1)receptor and the Notch1 intracellular domain(Notch1 ICD)were detected by western blot.A recovery test was con-ducted by adding the Notch1 receptor agonist Jagged1 to the culture groups with different concentra-tions of esketamine.Results Compared with the blank group,esketamine significantly inhibited the proliferation activity,spheroid-forming ability,migration ability,and invasion ability of CRC cells in a concentration-dependent manner.The intracellular expression levels of SOX2,SOX4,NANOG,and Notch1 ICD proteins were significantly decreased,while the expression level of the Notch1 recep-tor was significantly increased in the esketamine groups(P<0.05).After the addition of Jagged1,the inhibitory effects of esketamine on the proliferation activity,metastatic ability,and stem cell properties of CRC cells were alleviated.Conclusion Esketamine inhibits CRC cell proliferation,metastasis,EMT,and stem cell properties by reducing the activation level of the Notch1 receptor,demonstrating a potential for clinical anti-tumor applications.
