Involvement of Mitochondria in the Selective Response to Microsecond Pulsed Electric Fields on Healthy and Cancer Stem Cells in the Brain.
Arianna CasciatiAnna Rita TaddeiElena RampazzoLuca PersanoGiampietro ViolaAlice CaniSilvia BresolinVincenzo CesiFrancesca AntonelliMariateresa MancusoCaterina MerlaMirella TanoriPublished in: International journal of molecular sciences (2024)
In the last few years, pulsed electric fields have emerged as promising clinical tools for tumor treatments. This study highlights the distinct impact of a specific pulsed electric field protocol, PEF-5 (0.3 MV/m, 40 μs, 5 pulses), on astrocytes (NHA) and medulloblastoma (D283) and glioblastoma (U87 NS) cancer stem-like cells (CSCs). We pursued this goal by performing ultrastructural analyses corroborated by molecular/omics approaches to understand the vulnerability or resistance mechanisms triggered by PEF-5 exposure in the different cell types. Electron microscopic analyses showed that, independently of exposed cells, the main targets of PEF-5 were the cell membrane and the cytoskeleton, causing membrane filopodium-like protrusion disappearance on the cell surface, here observed for the first time, accompanied by rapid cell swelling. PEF-5 induced different modifications in cell mitochondria. A complete mitochondrial dysfunction was demonstrated in D283, while a mild or negligible perturbation was observed in mitochondria of U87 NS cells and NHAs, respectively, not sufficient to impair their cell functions. Altogether, these results suggest the possibility of using PEF-based technology as a novel strategy to target selectively mitochondria of brain CSCs, preserving healthy cells.
Keyphrases
- single cell
- induced apoptosis
- cell cycle arrest
- cell death
- cell therapy
- cancer stem cells
- squamous cell carcinoma
- randomized controlled trial
- young adults
- white matter
- endoplasmic reticulum
- zika virus
- resting state
- multiple sclerosis
- high glucose
- dengue virus
- functional connectivity
- single molecule
- subarachnoid hemorrhage
- molecular dynamics simulations
- sensitive detection
- solar cells