Electroporation is a well-established technique used to stimulate cells, enhancing membrane permeability. Although the biological phenomena occurring after the poration process have been widely studied, the physical mechanisms of pore formation are not clearly understood. In this work we investigated by means of molecular dynamics simulations the kinetics of pore formation, linking the different stages of poration to specific arrangements of lipid membrane domains.Clinical Relevance-The approach followed in this study aims to shed light on the molecular mechanisms at the basis of the electroporation technique, nowadays used to enhance the entrance of poorly permeant anticancer drugs into tumor cells, for gene electrotransfer and all the other applications exploiting the modulation of cell membrane properties.
Electroporation mechanisms: The role of lipid orientation in the kinetics of pore formation / Marracino, Paolo; Caramazza, Laura; Liberti, Micaela; Apollonio, Francesca. - (2020), pp. 2235-2238. (Intervento presentato al convegno Engineering in Medicine and Biology Society (EMBC), 2020 42nd Annual International Conference of the IEEE tenutosi a Montreal, QC, Canada, Canada) [10.1109/EMBC44109.2020.9175706].
Electroporation mechanisms: The role of lipid orientation in the kinetics of pore formation
Paolo Marracino;Laura Caramazza
;Micaela Liberti;Francesca Apollonio
2020
Abstract
Electroporation is a well-established technique used to stimulate cells, enhancing membrane permeability. Although the biological phenomena occurring after the poration process have been widely studied, the physical mechanisms of pore formation are not clearly understood. In this work we investigated by means of molecular dynamics simulations the kinetics of pore formation, linking the different stages of poration to specific arrangements of lipid membrane domains.Clinical Relevance-The approach followed in this study aims to shed light on the molecular mechanisms at the basis of the electroporation technique, nowadays used to enhance the entrance of poorly permeant anticancer drugs into tumor cells, for gene electrotransfer and all the other applications exploiting the modulation of cell membrane properties.| File | Dimensione | Formato | |
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