Oxidative Stress Resistance in Metastatic Prostate Cancer: Renewal by Self-Eating

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Authors

BALVAN Jan GUMULEC Jaromír RAUDENSKÁ Martina KRIZOVA Aneta ŠTĚPKA Petr BABULA Petr KIZEK René ADAM Vojtech MASAŘÍK Michal

Year of publication 2015
Type Article in Periodical
Magazine / Source Plos one
MU Faculty or unit

Faculty of Medicine

Citation
Doi http://dx.doi.org/10.1371/journal.pone.0145016
Field Physiology
Keywords CONTROLLED HOLOGRAPHIC MICROSCOPE; HUMAN SOMATIC-CELLS; NF-KAPPA-B; UP-REGULATION; TUMOR PROGRESSION; INDUCED MITOPHAGY; FLOW-CYTOMETRY; LIVING CELLS; STEM-CELLS; AUTOPHAGY
Description Resistant cancer phenotype is a key obstacle in the successful therapy of prostate cancer. The primary aim of our study was to explore resistance mechanisms in the advanced type of prostate cancer cells (PC-3) and to clarify the role of autophagy in these processes. We performed time-lapse experiment (48 hours) with ROS generating plumbagin by using multimodal holographic microscope. Furthermore, we also performed the flow-cytometric analysis and the qRT-PCR gene expression analysis at 12 selected time points. TEM and confocal microscopy were used to verify the results. We found out that autophagy (namely mitophagy) is an important resistance mechanism. The major ROS producing mitochondria were coated by an autophagic membrane derived from endoplasmic reticulum and degraded. According to our results, increasing ROS resistance may be also accompanied by increased average cell size and polyploidization, which seems to be key resistance mechanism when connected with an escape from senescence. Many different types of cellcell interactions were recorded including entosis, vesicular transfer, eating of dead or dying cells, and engulfment and cannibalism of living cells. Entosis was disclosed as a possible mechanism of polyploidization and enabled the long-term survival of cancer cells. Significantly reduced cell motility was found after the plumbagin treatment. We also found an extensive induction of pluripotency genes expression (NANOG, SOX2, and POU5F1) at the time-point of 20 hours. We suppose, that overexpression of pluripotency genes in the portion of prostate tumour cell population exposed to ROS leads to higher developmental plasticity and capability to faster respond to changes in the extracellular environment that could ultimately lead to an alteration of cell fate.
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