Article Publish Status: FREE
Abstract Title:

Noninvasive radiofrequency treatment effect on mitochondria in pancreatic cancer cells.

Abstract Source:

Cancer. 2014 Nov 1 ;120(21):3418-25. Epub 2014 Jul 1. PMID: 24986120

Abstract Author(s):

Steven A Curley, Flavio Palalon, Xiaolin Lu, Nadezhda V Koshkina

Article Affiliation:

Steven A Curley


BACKGROUND: The development of novel therapeutic approaches for cancer therapy is important, especially for tumors that have poor response or develop resistance to standard chemotherapy and radiation. We discovered that noninvasive radiofrequency (RF) fields can affect cancer cells but not normal cells, inhibit progression of tumors in mice, and enhance the anticancer effects of chemotherapy. However, it remains unclear what physiological and molecular mechanisms this treatment induces inside cells. Here, we studied the effect of RF treatment on mitochondria in human pancreatic cancer cells.

METHODS: The morphology of mitochondria in cells was studied via electron microscopy. The alteration of mitochondrial membrane potential (Δψ) was accessed using a Mitotracker probe. The respiratory activity of mitochondria was evaluated by analyzing changes in oxygen consumption rates determined with a Mito Stress Test Kit. The production of intracellular reactive oxygen species was performed using flow cytometry. The colocalizationof mitochondria and autophagosome markers in cells was performed using fluorescence immunostaining and confocal microscopy analysis.

RESULTS: RF fields treatment changed the morphology of mitochondria in cancer cells, altered polarization of the mitochondrial membrane, substantially impaired mitochondrial respiration, and increased reactive oxygen species production, indicating RF-induced stress on the mitochondria. We also observed frequent colocalization of the autophagosome marker LC3B with the mitochondrial marker Tom20 inside cancer cells after RF exposure, indicating the presence of mitochondria in the autophagosomes. This suggests that RF-induced stress can damage mitochondria and induce elimination of damaged organelles via autophagy.

CONCLUSION: RF treatment impaired the function of mitochondria in cancer cells. Therefore, mitochondria can represent one of the targets of the RF treatment.

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Sayer Ji
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