Translocation of a single Arg$$_9$$ peptide across a DOPC/DOPG(4:1) model membrane using the weighted ensemble method

Choe, Seungho

doi:10.1038/s41598-023-28493-4

Cited by 4 publications

(4 citation statements)

References 55 publications

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“…The dynamic GUV leakage assays serve as an effective method to monitor real-time membrane permeabilization and deformation caused by active molecules, which are commonly employed for investigating molecule–membrane interactions. , GUVs composed of DOPC, DOPG (at a mol ratio of 4:1; previously utilized , ) and labeled with 1 mol % RhB-PE were prepared using the conventional electro-forming method and immobilized on a glass substrate through biotin–streptavidin binding. Calcein, a water-soluble and membrane-impermeable fluorophore, was introduced into the solution for evaluating membrane permeability.…”

Section: Resultsmentioning

confidence: 99%

Design and Discovery of New Collagen V-Derived FGF2-Blocking Natural Peptides Inhibiting Lung Squamous Cell Carcinoma In Vitro and In Vivo

Kuang,

Chen,

Wang

et al. 2024

J. Med. Chem.

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Aberrant FGF2/FGFR signaling is implicated in lung squamous cell carcinoma (LSCC), posing treatment challenges due to the lack of targeted therapeutic options. Designing drugs that block FGF2 signaling presents a promising strategy different from traditional kinase inhibitors. We previously reported a ColVα1-derived fragment, HEPV (127AA), that inhibits FGF2-induced angiogenesis. However, its large size may limit therapeutic application. This study combines rational peptide design, molecular dynamics simulations, knowledge-based prediction, and GUV and FRET assays to identify smaller peptides with FGF2-blocking properties. We synthesized two novel peptides, HBS-P1 (45AA) and HBS-P2 (66AA), that retained the heparin-binding site. Both peptides demonstrated anti-LSCC and antiangiogenesis properties in cell viability and microvessel network induction assays. In two LSCC subcutaneous models, HBS-P1, with its affinity for FGF2 and enhanced penetration ability, demonstrated substantial therapeutic potential without apparent toxicities. Our study provides the first evidence supporting the development of collagen V-derived natural peptides as FGF2-blocking agents for LSCC treatment.

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Section: Resultsmentioning

confidence: 99%

Design and Discovery of New Collagen V-Derived FGF2-Blocking Natural Peptides Inhibiting Lung Squamous Cell Carcinoma In Vitro and In Vivo

Kuang,

Chen,

Wang

et al. 2024

J. Med. Chem.

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“…In parallel, CPP showed various translocation mechanisms: Arg9 seems to translocate through a transient pore formation [69,70], a mechanism shared by DynA WT. On the other hand, DynA L5S and TP2 may involve direct translocation (through a quick and transient pore or without pore formation) of a monomeric peptide, leading to a minimum leakage.…”

Section: Discussionmentioning

confidence: 99%

Unravelling the Cell-Penetrating Potential of Endogenous Opioid Neuropeptide Dynorphin A through Computational Dissection of Membrane Disruption Principles

Peralvarez-Marin,

Catalina-Hernandez,

Lopez-Martin

et al. 2024

Preprint

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Dynorphins are endogenous neuropeptides that function as opioids. In addition to opioid activity, dynorphins can induce several pathological effects such as neurological dysfunctions and cell death. Previous studies have suggested that Dynorphin A (DynA) and its clinical variants (L5S, R6W, and R9C) mediate some pathogenic actions through formation of transient pores in lipid domains of the plasma membrane. Here, we use a combination of steered and conventional molecular dynamics simulations to evaluate the ability of DynA and its variants to disturb lipid membranes in comparison to well established cell-penetrating peptides to determine how these peptides interact and permeate model lipid bilayers. We show that in our setup DynA and its variants (except for R9C) exhibit a strong membrane disturbing potential that may lead to translocation through the formation of water pores, which is likely prevented in cholesterol containing bilayers for R6W. When cholesterol and negative charge in the bilayers are present, the membrane disruption potential of DynA and its variants is minimal, but the hydrophobic-to-polar substitution in L5S favors peptide translocation. Altogether, these results show the importance of out-of-the-box computational studies to design membrane disruptive peptides to exploit their cell-penetrating and antimicrobial capabilities.

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“…Experimental and computational studies of other arginine-containing peptides have shown that trans-leaflet flip-flop can be induced by peptide membrane insertion. 41,42 If NAF-1 44−67 induces trans-leaflet flip-flop, a cooperative insertion enhancement could occur when an inner leaflet > outer leaflet anionic lipid gradient is present. For example, if the outer leaflet and inner leaflet are 30 and 50 mol % PA, respectively, permeating NAF-1 44−67 could flip some PA lipids to the OL.…”

mentioning

confidence: 99%

“…In an unperturbed bilayer, the time scale of lipid flip-flop is very slow, on the order of hours to days with a large ∼20–30 kcal mol –1 free energy barrier. − However, when NAF-1 44–67 forms a membrane defect, this barrier may be reduced, neutralizing any gradient between the leaflets. Experimental and computational studies of other arginine-containing peptides have shown that trans-leaflet flip-flop can be induced by peptide membrane insertion. , If NAF-1 44–67 induces trans-leaflet flip-flop, a cooperative insertion enhancement could occur when an inner leaflet > outer leaflet anionic lipid gradient is present. For example, if the outer leaflet and inner leaflet are 30 and 50 mol % PA, respectively, permeating NAF-1 44–67 could flip some PA lipids to the OL.…”

mentioning

confidence: 99%

Leaflet-Dependent Effect of Anionic Lipids on Membrane Insertion by Cationic Cell-Penetrating Peptides

Povilaitis

Webb

2023

J. Phys. Chem. Lett.

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Cationic membrane-permeating peptides can cross membranes unassisted by transmembrane protein machinery, and there is consensus that anionic lipids facilitate this process. Although membranes are asymmetric in lipid composition, investigations of the impact of anionic lipids on peptide–membrane insertion in model vesicles primarily use symmetric anionic lipid distributions between bilayer leaflets. Here, we investigate the leaflet-specific influence of three anionic lipid headgroups [phosphatidic acid (PA), phosphatidylserine (PS), and phosphatidylglycerol (PG)] on insertion into model membranes by three cationic membrane-permeating peptides (NAF-144–67, R6W3, and WWWK). We report that outer leaflet anionic lipids enhanced peptide–membrane insertion for all peptides while inner leaflet anionic lipids did not have a significant effect except in the case of NAF-144–67 incubated with PA-containing vesicles. The insertion enhancement was headgroup-dependent for arginine-containing peptides but not WWWK. These results provide significant new insight into the potential role of membrane asymmetry in insertion of peptides into model membranes.

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Translocation of a single Arg$$_9$$ peptide across a DOPC/DOPG(4:1) model membrane using the weighted ensemble method

Cited by 4 publications

References 55 publications

Design and Discovery of New Collagen V-Derived FGF2-Blocking Natural Peptides Inhibiting Lung Squamous Cell Carcinoma In Vitro and In Vivo

Design and Discovery of New Collagen V-Derived FGF2-Blocking Natural Peptides Inhibiting Lung Squamous Cell Carcinoma In Vitro and In Vivo

Unravelling the Cell-Penetrating Potential of Endogenous Opioid Neuropeptide Dynorphin A through Computational Dissection of Membrane Disruption Principles

Leaflet-Dependent Effect of Anionic Lipids on Membrane Insertion by Cationic Cell-Penetrating Peptides

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