Home    中文  
 
  • Search
  • lucene Search
  • Citation
  • Fig/Tab
  • Adv Search
Just Accepted  |  Current Issue  |  Archive  |  Featured Articles  |  Most Read  |  Most Download  |  Most Cited

Chinese Journal of Cell and Stem Cell(Electronic Edition) ›› 2024, Vol. 14 ›› Issue (05): 275-284. doi: 10.3877/cma.j.issn.2095-1221.2024.05.003

• Original Researches • Previous Articles     Next Articles

Expression characterization OPA1 expression in breast cancer tissues and its biological function in ER-positive breast cancer cells

Chengxin Huang1,2, Li Chen1,3,4,2, Yichu Liu1,3,4,2, Shuiliang Wang1,3,4,2, Xiaofeng Lai1,3,4,2,()   

  1. 1.Department of Laboratory Medicine, Fujian University of Traditional Chinese Medicine, Fuzong Teaching Hospital(900th Hospital), Fuzhou 350025, China
    2.Fujian Key Laboratory of Aptamer Technology, Fujian Clinical Research Center for Aptamer-based Precision Diagnostics and Clinical Medicine, Fuzhou 350025, China
    3.Department of Laboratory Medicine, Fujian Medical University, Fuzong Clinical Medical College(900th Hospital), Fuzhou 350025, China
    4.Department of Laboratory Medicine, Dongfang Hospital Affiliated to Xiamen University (900th Hospital), Fuzhou 350025, China
  • Received:2024-09-03 Online:2024-10-01 Published:2024-12-02
  • Contact: Xiaofeng Lai

Abstract:

Objective

To analyze the expression of Optic Atrophy 1 (OPA1) in breast cancer and its effect on the biological function of estrogen receptor (ER)-positive breast cancer cells, seeking potential new targets for breast cancer therapy.

Methods

Expression differences of OPA1 in breast cancer and normal/paracancerous tissues were analyzed using publicly available database information (HPA and GSE115144) and tissue microarrays from ER-positive breast cancer patients, respectively. The correlation between OPA1 expression and survival in breast cancer patients was analyzed by the GEPIA and TCGA databases. In cellexperiments, MCF7 and T47D cells were transfected with OPA1 plasmid and small interfering RNA (siRNA), respectively, and the relative expression levels of mRNA and protein of OPA1 were detected by RT-qPCR and Western blot. Cell proliferation and clone formation ability were detected by CCK-8 assay and plate clone formation assay, respectively. Reactive oxygen species (ROS) level, mitochondrial membrane potential (JC- 1 method) and apoptosis rate were detected by flow cytometry. Two independent samples t-test was used for comparison between groups. Differences among groups were compared by one-way ANOVE analysis, and Dunnett-t test was used for pair-to-group comparisons.

Results

OPA1 was highly expressed in breast cancer tissues compared with paracancerous tissues (P< 0.01), and high OPA1 expression was associated with poor clinical prognosis in breast cancer patients (P< 0.05). In cell experiments, overexpression of OPA1 promoted cell proliferation and clone formation and decreased the ROS levels [(37.37 ± 1.48)% vs (62.51 ± 2.66)%, P< 0.001], along with an increase in mitochondrial membrane potential [decrease in the proportion of JC-1 monomers, (7.32 ± 1.84)% vs(17.6 ± 3.35)%, P< 0.01]; while inhibition of OPA1 was able to inhibit cell proliferation and clone formation, increase ROS levels [(77.81 ± 2.37)% vs (58.37 ± 1.36)%, P< 0.001], decreasing mitochondrial membrane potential [elevated proportion of JC-1 monomer, (28.13 ± 3.47)% vs(15.96 ± 1.14)%, P< 0.01], and promote apoptosis [(20.10 ± 1.20)% vs (3.85 ± 0.76)%, P<0.001].

Conclusion

OPA1 is highly expressed in breast cancer and is significantly associated with poor clinical prognosis. Inhibition of OPA1 expression inhibits the cell proliferation and clone formation of ER-positive breast cancer, while decreasing mitochondrial membrane potential, affecting mitochondrial function,inducing ROS generation andultimately promote cell apoptosis.

Key words: Breast neoplasms, OPA1, Cell Proliferation, Apoptosis, Mitochondria

京ICP 备07035254号-3
Copyright © Chinese Journal of Cell and Stem Cell(Electronic Edition), All Rights Reserved.
Tel: 0086-591-87982783 E-mail: ccsct@vip.163.com
Powered by Beijing Magtech Co. Ltd