Alenka Maček Lebar , Tjaša Potočnik , Janez Ščančar , Stefan Marković , Tamara Polajžer
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引用次数: 0
Abstract
Electrodes dissolution during electroporation releases metal ions into the medium, altering the microenvironment of electroporated cells and allowing metal ions to penetrate cell membrane. During cell membrane repair, homeostasis restoration or activation of cell death pathways, cells eliminate excess metals from the cytoplasm and membrane. This study assessed the effects of post-electroporation metal byproducts on untreated (non-electroporated) cells in vitro.
CHO and HCT116 cells were electroporated with three pulse protocols (unipolar: 100 μs, 5 ms; bipolar: 2 μs) using either aluminum or stainless-steel electrodes. After electroporation, cells were transferred to fresh growth medium and incubated for 2 or 4 h. Incubation period allowed either cell recovery or the activation of cell death pathways, leading to the accumulation of metal byproducts in the incubation medium.
Stainless-steel electrodes with the 5 ms pulse protocol caused a considerable increase in iron, chromium and nickel ions in incubation medium compared to aluminum electrodes or other protocols. Metal ions in incubation medium caused toxicity in non-electroporated cells, disrupting cell cycle function or inducing cell death. The observed toxicity results from combined effects of metal ions on cellular functions and the mechanisms the cells use to protect themselves from metal overload.
期刊介绍:
An International Journal Devoted to Electrochemical Aspects of Biology and Biological Aspects of Electrochemistry
Bioelectrochemistry is an international journal devoted to electrochemical principles in biology and biological aspects of electrochemistry. It publishes experimental and theoretical papers dealing with the electrochemical aspects of:
• Electrified interfaces (electric double layers, adsorption, electron transfer, protein electrochemistry, basic principles of biosensors, biosensor interfaces and bio-nanosensor design and construction.
• Electric and magnetic field effects (field-dependent processes, field interactions with molecules, intramolecular field effects, sensory systems for electric and magnetic fields, molecular and cellular mechanisms)
• Bioenergetics and signal transduction (energy conversion, photosynthetic and visual membranes)
• Biomembranes and model membranes (thermodynamics and mechanics, membrane transport, electroporation, fusion and insertion)
• Electrochemical applications in medicine and biotechnology (drug delivery and gene transfer to cells and tissues, iontophoresis, skin electroporation, injury and repair).
• Organization and use of arrays in-vitro and in-vivo, including as part of feedback control.
• Electrochemical interrogation of biofilms as generated by microorganisms and tissue reaction associated with medical implants.
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