Effects of membrane potentials on the electroporation of giant unilamellar vesicles

Author:

Wadud Md. Abdul,Karal Mohammad Abu SayemORCID,Moniruzzaman Md.,Rashid Md. Mamun Or

Abstract

Living organisms maintain a resting membrane potential, which plays an important role in various biophysical and biological processes. In the context of medical applications, irreversible electroporation (IRE) is a non-thermal and minimally invasive technique that utilizes precisely controlled electric field pulses of micro- to millisecond durations to effectively ablate cancer and tumor cells. Previous studies on IRE-induced rupture of cell-mimetic giant unilamellar vesicles (GUVs) have primarily been conducted in the absence of membrane potentials. In this study, we investigated the electroporation of GUVs, including parameters such as the rate constant of rupture and the probability of rupture, in the presence of various negative membrane potentials. The membranes of GUVs were prepared using lipids and channel forming proteins. As the membrane potential increased from 0 to −90 mV, the rate constant of rupture showed a significant increase from (7.5 ± 1.6)×10−3 to (35.6 ± 5.5)×10−3 s-1. The corresponding probability of rupture also exhibited a notable increase from 0.40 ± 0.05 to 0.68 ± 0.05. To estimate the pore edge tension, the electric tension-dependent logarithm of the rate constant was fitted with the Arrhenius equation for different membrane potentials. The presence of membrane potential did not lead to any significant changes in the pore edge tension. The increase in electroporation is reasonably explained by the decrease in the prepore free energy barrier. The choice of buffer used in GUVs can significantly influence the kinetics of electroporation. This study provides valuable insights that can contribute to the application of electroporation techniques in the biomedical field.

Funder

Special allocation, Ministry of Science and Technology, Bangladesh

Grant of Advanced Research in Education, Ministry of Education, Bangladesh

Basic Research Grant of Bangladesh University of Engineering and Technology

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

Reference60 articles.

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