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1.
Cells ; 12(9)2023 04 27.
Article in English | MEDLINE | ID: mdl-37174666

ABSTRACT

Levels of hydrogen peroxide are highly elevated in the breast tumor microenvironment compared to normal tissue. Production of hydrogen peroxide is implicated in the mechanism of action of many anticancer therapies. Several lines of evidence suggest hydrogen peroxide mediates breast carcinogenesis and metastasis, though the molecular mechanism remains poorly understood. This study elucidates the effects of exposure to elevated hydrogen peroxide on non-tumorigenic MCF10A mammary epithelial cells, tumorigenic MCF7 cells, and metastatic MDA-MB-231 breast cancer cells. Hydrogen peroxide treatment resulted in a dose- and time-dependent induction of two α-tubulin post-translational modifications-de-tyrosination and acetylation-both of which are markers of poor patient prognosis in breast cancer. Hydrogen peroxide induced the formation of tubulin-based microtentacles in MCF10A and MDA-MB-231 cells, which were enriched in detyrosinated and acetylated α-tubulin. However, the hydrogen peroxide-induced microtentacles did not functionally promote metastatic phenotypes of cellular reattachment and homotypic cell clustering. These data establish for the first time that microtentacle formation can be separated from the functions to promote reattachment and clustering, which indicates that there are functional steps that remain to be identified. Moreover, signals in the primary tumor microenvironment may modulate α-tubulin post-translational modifications and induce microtentacles; however, the functional consequences appear to be context-dependent.


Subject(s)
Breast Neoplasms , Neoplasm Metastasis , Tubulin , Humans , Acetylation , Hydrogen Peroxide , MCF-7 Cells , Protein Processing, Post-Translational , Tubulin/metabolism , Breast Neoplasms/pathology
2.
bioRxiv ; 2023 Mar 31.
Article in English | MEDLINE | ID: mdl-37034765

ABSTRACT

The tumor microenvironment and wound healing after injury, both contain extremely high concentrations of the extracellular signaling molecule, adenosine triphosphate (ATP) compared to normal tissue. P2Y2 receptor, an ATP-activated purinergic receptor, is typically associated with pulmonary, endothelial, and neurological cell signaling. Here we report its role and importance in breast epithelial cell signaling and how it’s altered in metastatic breast cancer. In response to ATP activation, P2Y2 receptor signaling causes an increase of intracellular Ca 2+ in non-tumorigenic breast epithelial cells, while their tumorigenic and metastatic counterparts have significantly reduced Ca 2+ responses. The non-tumorigenic cells respond to increased Ca 2+ with actin polymerization and localization to cellular junctions, while the metastatic cells remained unaffected. The increase in intracellular Ca 2+ after ATP stimulation could be blunted using a P2Y2 antagonist, which also prevented actin mobilization in non-tumorigenic breast epithelial cells. Furthermore, the lack of Ca 2+ concentration changes and actin mobilization in the metastatic breast cancer cells could be due to reduced P2Y2 expression, which correlates with poorer overall survival in breast cancer patients. This study elucidates rapid changes that occur after elevated intracellular Ca 2+ in breast epithelial cells and how metastatic cancer cells have adapted to evade this cellular response. STATEMENT OF SIGNIFICANCE: This work shows non-tumorigenic breast epithelial cells increase intracellular Ca 2+ after ATP-P2Y2 signaling and re-localize actin, while metastatic cells lack this response, due to decreased P2Y2 expression, which correlates with poorer survival.

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