Effects of Mechanical Properties of Lipid Bilayers on the Entry of Cell-Penetrating Peptides into Single Vesicles

Islam, Md. Zahidul; Sharmin, Sabrina; Levadnyy, Victor; Shibly, Sayed Ul Alam; Yamazaki, Masahito

doi:10.1021/acs.langmuir.6b03111

Cited by 48 publications

(62 citation statements)

References 57 publications

(159 reference statements)

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“…Although it is not clear why charged membranes containing lipids with two unsaturated tails are more prone to disruption, this may be related to the increase in membrane fluctuations due to their lower bending rigidity. High-amplitude fluctuations were shown to increase the propensity to membrane rarefactions (prepores) that may eventually evolve into a large pore due to a lower activation energy of pore formation (75)(76)(77).…”

Section: Discussionmentioning

confidence: 99%

To close or to collapse: the role of charges on membrane stability upon pore formation

Lira

Leomil

Melo

et al. 2020

Preprint

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Resealing of membrane pores is crucial for cell survival. We studied the membrane surface charge and medium composition as defining regulators triggering bursting and collapse of giant unilamellar vesicles upon poration. The pores were generated by either electric field or a detergent. Vesicles composed of mixtures of zwitterionic and negatively charged lipids at varying molar ratios were subjected to a single strong electric pulse and their response was characterized for a given membrane and medium composition. We observe that charged vesicles are prone to catastrophic vesicle collapse transforming them into tubular structures. The spectrum of destabilization responses includes the generation of long-living submicroscopic pores and partial vesicle bursting. The origin of these phenomena is related to the membrane edge tension, which governs pore closure. This edge tension significantly decreases as a function of the molar fraction of charged lipids. Destabilization of charged vesicles upon pore formation is a universal process since it is also observed with other poration stimuli. Disruption propensity is enhanced for membranes made of lipids with higher degree of unsaturation. It can be reversed by screening membrane charge in the presence of calcium ions. We interpret the observed findings in light of theories of stability and curvature generation in charged membranes and discuss mechanisms acting in cells to prevent total membrane collapse upon poration. Enhanced membrane stability is crucial for the success of electroporation-based technologies for cancer treatment and gene transfer.Significance StatementLeaky membranes cannot support life. Cells have developed protective mechanisms to respond to pore formation in their membranes. We find that essential membrane components such as (asymmetrically distributed) charged lipids destabilize the membrane upon poration and lead to catastrophic collapse, shown here on giant unilamellar vesicles as model membranes porated either by electric fields or detergent. The charged lipids act via reducing the pore edge tension. The membrane destabilization can be reverted by calcium ions and is less pronounced for lipids with lower degree of unsaturation. The observed membrane stabilization can be employed for optimizing biotechnological developments employing electroporation for cancer treatment.

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Section: Discussionmentioning

confidence: 99%

To close or to collapse: the role of charges on membrane stability upon pore formation

Lira

Leomil

Melo

et al. 2020

Preprint

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“…For the entry of CPPs into GUV lumen, the binding of fluorescent dye-labeled CPPs to the outer leaflet of the GUV membrane from aqueous solution, their translocation from the outer leaflet to the inner one of the membrane, and the unbinding of CPPs from the inner leaflet to the aqueous solution in the GUV lumen can be separated and their rates are estimated ( Fig. 1b) (Islam et al 2014a(Islam et al , 2017Sharmin et al 2016;Moghal et al 2018). Simultaneous measurement of entry of CPPs into the GUV lumen and the membrane permeation of internal contents using confocal laser scanning microscopy (CLSM) can reveal the relationship between the entry of CPPs and the CPPcaused pore formation (Islam et al 2014a(Islam et al , 2017Moghal et al 2018).…”

Section: Previous Studies On the Effect Of φ M On Amps And Cppsmentioning

confidence: 99%

“…1b) (Islam et al 2014a(Islam et al , 2017Sharmin et al 2016;Moghal et al 2018). Simultaneous measurement of entry of CPPs into the GUV lumen and the membrane permeation of internal contents using confocal laser scanning microscopy (CLSM) can reveal the relationship between the entry of CPPs and the CPPcaused pore formation (Islam et al 2014a(Islam et al , 2017Moghal et al 2018). The time course of change in fluorescence intensity (FI) of a GUV membrane (i.e., rim intensity) due to fluorescent dye-labeled CPPs provides information on time course change in peptide concentration in the GUV membrane, which has revealed the time course of translocation of peptides across lipid bilayer (Islam et al 2014a(Islam et al , 2017Karal et al 2015).…”

Section: Previous Studies On the Effect Of φ M On Amps And Cppsmentioning

confidence: 99%

“…Simultaneous measurement of entry of CPPs into the GUV lumen and the membrane permeation of internal contents using confocal laser scanning microscopy (CLSM) can reveal the relationship between the entry of CPPs and the CPPcaused pore formation (Islam et al 2014a(Islam et al , 2017Moghal et al 2018). The time course of change in fluorescence intensity (FI) of a GUV membrane (i.e., rim intensity) due to fluorescent dye-labeled CPPs provides information on time course change in peptide concentration in the GUV membrane, which has revealed the time course of translocation of peptides across lipid bilayer (Islam et al 2014a(Islam et al , 2017Karal et al 2015). On the other hand, the membrane tension in single GUVs can be accurately controlled by the micropipette aspiration method and the osmotic pressure, and thus, we can elucidate the effect of membrane tension on the action of AMPs and CPPs (Karal et al 2015;Shibly et al 2016;Islam et al 2017;Hasan et al 2018.…”

Section: Previous Studies On the Effect Of φ M On Amps And Cppsmentioning

confidence: 99%

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Action of antimicrobial peptides and cell-penetrating peptides on membrane potential revealed by the single GUV method

2020

Self Cite

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Membrane potential plays various key roles in live bacterial and eukaryotic cells. So far, the effects of membrane potential on action of antimicrobial peptides (AMPs) and cell-penetrating peptides (CPPs) have been examined using cells and small lipid vesicles. However, due to the technical drawbacks of these experiments, the effect of membrane potential on the actions of AMPs and CPPs and the elementary processes of interactions of these peptides with cell membranes and vesicle membranes are not well understood. In this short review, we summarize the results of the effect of membrane potential on the action of an AMP, lactoferricin B (LfcinB), and a CPP, transportan 10 (TP10), in vesicle membranes revealed by the single giant unilamellar vesicle (GUV) method. Parts of the actions and their elementary steps of AMPs and CPPs interacting vesicle membranes under membrane potential are clearly revealed using the single GUV method. The experimental methods and their analysis described here can be used to elucidate the effects of membrane potential on various activities of peptides such as AMPs, CPPs, and proteins. Moreover, GUVs with membrane potential are more suitable as a model of cells or artificial cells, as well as GUVs containing small vesicles. Keywords Single giant unilamellar vesicles. Antimicrobial peptides. Cell-penetrating peptides. Membrane potential. Artificial cells. Bio-imaging

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“…The lab of Masahito Yamazaki in Shizuoka University has been researching cell penetrating peptides into vesicles and actual cells [96]. In certain cases, including when studying the 21-mer antimicrobial cationic peptide, PGLa [97], or the 21-mer cell penetrating peptide, TP10 [98], they discovered that in both cases, the peptide induces pore formation in mixed dioleoylphosphatidylglycerol (DOPG) and dioleoylphosphatidylcholine (DOPC) phospholipid vesicle membranes, causing leakage of the internal components, which when applied to real bacterial cells, results in cell death. The result is translocation of the peptide into the interior of the vesicle.…”

Section: Assembly and Co-assembly Of Primitive Compartmentsmentioning

confidence: 99%

Recent Advances in Origins of Life Research by Biophysicists in Japan

Jia

Kuruma

2019

Challenges

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Biophysics research tends to focus on utilizing multidisciplinary technologies and interdisciplinary collaborations to study biological phenomena through the lens of chemistry and physics. Although most current biophysics work is focused on studying extant biology, the fact remains that modern biological systems at some point were descended from a universal common ancestor. At the core of modern biology is the important question of how the earliest life on (or off) Earth emerged. Recent technological and methodological advances developed by biophysicists in Japan have allowed researchers to gain a new suite of knowledge related to the origins of life (OoL). Using these reports as inspiration, here, we highlight some of the significant OoL advances contributed by members of the biophysical research field in Japan with respect to the synthesis and assembly of biological (or pre-biological) components on early Earth, the co-assembly of primitive compartments with biopolymer systems, and the evolution of early genetic systems. We hope to provide inspiration to other biophysicists to not only use the always-advancing suite of available multidisciplinary technologies to continue their own line of work, but to also consider how their work or techniques can contribute to the ever-growing field of OoL research.

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Effects of Mechanical Properties of Lipid Bilayers on the Entry of Cell-Penetrating Peptides into Single Vesicles

Cited by 48 publications

References 57 publications

To close or to collapse: the role of charges on membrane stability upon pore formation

To close or to collapse: the role of charges on membrane stability upon pore formation

Action of antimicrobial peptides and cell-penetrating peptides on membrane potential revealed by the single GUV method

Recent Advances in Origins of Life Research by Biophysicists in Japan

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