Depletion of mitochondrial protease OMA1 alters proliferative properties and promotes metastatic growth of breast cancer cells.
Amita DavereyRoman M LevytskyyKimberly M StankeMartonio Ponte VianaSamantha SwensonStephen L HaywardMadhusudhanan NarasimhanOleh KhalimonchukSrivatsan KidambiPublished in: Scientific reports (2019)
Metastatic competence of cancer cells is influenced by many factors including metabolic alterations and changes in mitochondrial biogenesis and protein homeostasis. While it is generally accepted that mitochondria play important roles in tumorigenesis, the respective molecular events that regulate aberrant cancer cell proliferation remain to be clarified. Therefore, understanding the mechanisms underlying the role of mitochondria in cancer progression has potential implications in the development of new therapeutic strategies. We show that low expression of mitochondrial quality control protease OMA1 correlates with poor overall survival in breast cancer patients. Silencing OMA1 in vitro in patient-derived metastatic breast cancer cells isolated from the metastatic pleural effusion and atypical ductal hyperplasia mammary tumor specimens (21MT-1 and 21PT) enhances the formation of filopodia, increases cell proliferation (Ki67 expression), and induces epithelial-mesenchymal transition (EMT). Mechanistically, loss of OMA1 results in alterations in the mitochondrial protein homeostasis, as reflected by enhanced expression of canonic mitochondrial unfolded protein response genes. These changes significantly increase migratory properties in metastatic breast cancer cells, indicating that OMA1 plays a critical role in suppressing metastatic competence of breast tumors. Interestingly, these results were not observed in OMA1-depleted non-tumorigenic MCF10A mammary epithelial cells. This newly identified reduced activity/levels of OMA1 provides insights into the mechanisms leading to breast cancer development, promoting malignant progression of cancer cells and unfavorable clinical outcomes, which may represent possible prognostic markers and therapeutic targets for breast cancer treatment.
Keyphrases
- breast cancer cells
- squamous cell carcinoma
- small cell lung cancer
- oxidative stress
- cell proliferation
- epithelial mesenchymal transition
- poor prognosis
- binding protein
- quality control
- papillary thyroid
- cell death
- protein protein
- signaling pathway
- squamous cell
- dna methylation
- amino acid
- lymph node metastasis
- genome wide
- climate change
- young adults
- small molecule
- rectal cancer