Calcium electroporation may offer a simple general tool for anticancer therapy. Transient permeabilization of cancer cell membranes created by applying short, high-voltage pulses in tumors enables high calcium influxes that trigger cell death. In this study, we compared the relative sensitivity of different human tumor models and normal tissues to calcium electroporation. Plasma membrane Ca-ATPase (PMCA) protein expression was confirmed in all cancer cell lines and normal primary dermal fibroblasts studied. In all tumor types tested , calcium electroporation effectively induced necrosis, with a range of sensitivities observed (36%-88%) 2 days after treatment. Necrosis was induced using calcium concentrations of 100-500 mmol/L and injection volumes 20%-80% of tumor volume. Notably, only limited effects were seen in normal tissue. Calcium content increased >7-fold in tumor and skin tissue after calcium electroporation but decreased in skin tissue 4 hours after treatment to levels comparable with untreated controls, whereas calcium content endured at high levels in tumor tissue. Mechanistic experiments indicated that calcium influx was similar in fibroblasts and cancer cells. However, we observed decreased PMCA expression in cancer cells compared with fibroblasts, offering a potential explanation for the different calcium content in tumor cells versus normal tissues. Overall, our results suggest that calcium electroporation can elicit a rapid and selective necrosis of solid tumors, with limited deleterious effects on surrounding normal tissues. .
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Article Synopsis
- - This study examines how complex cellular structures, specifically Jurkat cells with features like the endoplasmic reticulum and mitochondria, respond to external electric pulses by modeling transmembrane potential and electroporation.
- - Simulations reveal that electroporation requires a stronger electric field for the endoplasmic reticulum compared to the inner mitochondrial membrane, which is more susceptible to poration, and may be linked to increased intracellular calcium levels.
- - The research also explores how repeated electric pulses and electrode placement enhance membrane poration, while acknowledging that although more complex models could improve accuracy, basic trends in findings are likely to persist.
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