FXYD6 is transcriptionally activated by KLF10 to suppress the aggressiveness of gastric cancer cells.

IF 2 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Cytotechnology Pub Date : 2025-04-01 Epub Date: 2025-01-25 DOI:10.1007/s10616-025-00710-0

Chao Liu, Xin Zhou, Guangsheng Wang, Chenyu Zhu, Rui Xu

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引用次数: 0

Abstract

Despite improvements in therapeutic approaches, the mortality rate of gastric cancer (GC) remains unacceptably high. Evidence suggests that FXYD domain containing ion transport regulator 6 (FXYD6) is downregulated in GC. However, its exact function and the molecular mechanism in GC are still unclear. FXYD6 expression in different cell lines was estimated using RT-qPCR. Western blotting was employed for protein expression detection. Cell counting kit-8 assay, colony formation assay, and flow cytometry were implemented to assess GC cell viability, proliferation, and apoptosis, respectively. Bioinformatics analysis as well as chromatin immunoprecipitation and luciferase reporter assays were utilized for verifying FXYD6 interaction with the transcription factor Krüppel-like factor 10 (KLF10). The results showed that FXYD6 displayed a decreased level in GC cell lines. Impaired proliferative ability and enhanced apoptotic capacity were observed in GC cells overexpressing FXYD6. KLF10 expression is positively correlated with FXYD6 expression in GC samples. KLF10 binds to the FXYD6 promoter to enhance its transcription. FXYD6 depletion counteracted KLF10 upregulation-triggered reduction in GC cell proliferation and elevation in apoptosis. In conclusion, KLF10 activates FXYD6 transcription, thereby impeding GC cell proliferation and promoting cell apoptosis.

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来源期刊

Cytotechnology 生物-生物工程与应用微生物

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

6-12 weeks

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.