Bin Chen, Lu Wang, Qiuyue Liu, Tao Liu, Linghai Li, Teng Ma, Wei Liu, Jun Ma
{"title":"七氟醚诱导Ca2+超载和EFHD1上调,驱动SCLC细胞焦亡。","authors":"Bin Chen, Lu Wang, Qiuyue Liu, Tao Liu, Linghai Li, Teng Ma, Wei Liu, Jun Ma","doi":"10.1007/s10616-025-00807-6","DOIUrl":null,"url":null,"abstract":"<p><p>Sevoflurane, a widely utilized inhalational anesthetic, has been shown in previous studies to inhibit the proliferation and invasion of non-small cell lung cancer (NSCLC) cells. However, whether sevoflurane affects the metastasis of small cell lung cancer (SCLC) cells remains unexplored. This study's primary objective was to investigate the mechanism by which sevoflurane induces calcium overload and EFHD1 upregulation, thereby contributing to pyroptosis in SCLC cells. NCI-H446 cells were treated with sevoflurane at concentrations of 0%, 0.6%, 3% and 15%. Cell proliferation was assessed using the CCK8 assay, while cell migration and invasion were analyzed using the Transwell assay. EFHD1 expression was determined by q-PCR and Western blot. Calcium content, ROS levels, and CCO content were measured using respective assay kits, and mitochondrial morphology was observed using transmission electron microscopy. Western blotting was performed to detect the expression of caspase-1 and GSDMD. All procedures were repeated under conditions of EFHD1 overexpression or silencing. Sevoflurane inhibited the proliferation, migration, and invasion of NCI-H446 cells, concurrently exerting a significant pro-pyroptotic effect. This was mediated by mitochondrial calcium overload, EFHD1 upregulation, and subsequent mitochondrial damage-induced pyroptosis. Sevoflurane significantly enhances pyroptosis in NCI-H446 cells, thereby potentially reducing cancer cell dissemination during surgery.</p>","PeriodicalId":10890,"journal":{"name":"Cytotechnology","volume":"77 4","pages":"150"},"PeriodicalIF":2.0000,"publicationDate":"2025-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12271033/pdf/","citationCount":"0","resultStr":"{\"title\":\"Sevoflurane induces Ca<sup>2+</sup> overload and EFHD1 upregulation, driving pyroptosis in SCLC cells.\",\"authors\":\"Bin Chen, Lu Wang, Qiuyue Liu, Tao Liu, Linghai Li, Teng Ma, Wei Liu, Jun Ma\",\"doi\":\"10.1007/s10616-025-00807-6\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Sevoflurane, a widely utilized inhalational anesthetic, has been shown in previous studies to inhibit the proliferation and invasion of non-small cell lung cancer (NSCLC) cells. However, whether sevoflurane affects the metastasis of small cell lung cancer (SCLC) cells remains unexplored. This study's primary objective was to investigate the mechanism by which sevoflurane induces calcium overload and EFHD1 upregulation, thereby contributing to pyroptosis in SCLC cells. NCI-H446 cells were treated with sevoflurane at concentrations of 0%, 0.6%, 3% and 15%. Cell proliferation was assessed using the CCK8 assay, while cell migration and invasion were analyzed using the Transwell assay. EFHD1 expression was determined by q-PCR and Western blot. Calcium content, ROS levels, and CCO content were measured using respective assay kits, and mitochondrial morphology was observed using transmission electron microscopy. Western blotting was performed to detect the expression of caspase-1 and GSDMD. All procedures were repeated under conditions of EFHD1 overexpression or silencing. Sevoflurane inhibited the proliferation, migration, and invasion of NCI-H446 cells, concurrently exerting a significant pro-pyroptotic effect. This was mediated by mitochondrial calcium overload, EFHD1 upregulation, and subsequent mitochondrial damage-induced pyroptosis. 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Sevoflurane induces Ca2+ overload and EFHD1 upregulation, driving pyroptosis in SCLC cells.
Sevoflurane, a widely utilized inhalational anesthetic, has been shown in previous studies to inhibit the proliferation and invasion of non-small cell lung cancer (NSCLC) cells. However, whether sevoflurane affects the metastasis of small cell lung cancer (SCLC) cells remains unexplored. This study's primary objective was to investigate the mechanism by which sevoflurane induces calcium overload and EFHD1 upregulation, thereby contributing to pyroptosis in SCLC cells. NCI-H446 cells were treated with sevoflurane at concentrations of 0%, 0.6%, 3% and 15%. Cell proliferation was assessed using the CCK8 assay, while cell migration and invasion were analyzed using the Transwell assay. EFHD1 expression was determined by q-PCR and Western blot. Calcium content, ROS levels, and CCO content were measured using respective assay kits, and mitochondrial morphology was observed using transmission electron microscopy. Western blotting was performed to detect the expression of caspase-1 and GSDMD. All procedures were repeated under conditions of EFHD1 overexpression or silencing. Sevoflurane inhibited the proliferation, migration, and invasion of NCI-H446 cells, concurrently exerting a significant pro-pyroptotic effect. This was mediated by mitochondrial calcium overload, EFHD1 upregulation, and subsequent mitochondrial damage-induced pyroptosis. Sevoflurane significantly enhances pyroptosis in NCI-H446 cells, thereby potentially reducing cancer cell dissemination during surgery.
期刊介绍:
The scope of the Journal includes:
1. The derivation, genetic modification and characterization of cell lines, genetic and phenotypic regulation, control of cellular metabolism, cell physiology and biochemistry related to cell function, performance and expression of cell products.
2. Cell culture techniques, substrates, environmental requirements and optimization, cloning, hybridization and molecular biology, including genomic and proteomic tools.
3. Cell culture systems, processes, reactors, scale-up, and industrial production. Descriptions of the design or construction of equipment, media or quality control procedures, that are ancillary to cellular research.
4. The application of animal/human cells in research in the field of stem cell research including maintenance of stemness, differentiation, genetics, and senescence, cancer research, research in immunology, as well as applications in tissue engineering and gene therapy.
5. The use of cell cultures as a substrate for bioassays, biomedical applications and in particular as a replacement for animal models.
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