Oxidative Stress Can Affect the Gene Silencing Effect of DOTAP Liposome in an <i>In Vitro </i>Translation System

Umakoshi, Hiroshi; Tanabe, T.; Suga, Kazuyoshi; Bui, Huong Thi; Shimanouchi, Toshinori; Kuboi, Ryoichi

doi:10.7150/ijbs.7.253

Cited by 8 publications

(3 citation statements)

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“…After hydroxyl radical oxidation, new m / z peaks were found at 802, 818, 832, and 850 m / z , suggesting that oxidized DOPC species were generated. According to previous reports, oxidized DOPC includes carboxyl or epoxide groups and showed increase of molecular weight, although it is uncertain where the carbonyl oxygen is added . From the mass spectra result, shown in Figure , DOPC molecules were oxidized more strongly by the incubation time 24 h, This indicates that more hydroxyl radical permeated through the lipid membrane, resulting in the oxidation of DOPC molecules with the extension of time.…”

Section: Results and Discussionmentioning

confidence: 64%

“…According to previous reports, oxidized DOPC includes carboxyl or epoxide groups and showed increase of molecular weight, although it is uncertain where the carbonyl oxygen is added. 36 From the mass spectra result, shown in Figure 8, DOPC molecules were oxidized more strongly by the incubation time 24 h, This indicates that more hydroxyl radical permeated through the lipid membrane, resulting in the oxidation of DOPC molecules with the extension of time. However, the mass spectra of DOPC extracted from RESincorporated DOPC liposome showed no evident change regardless of the oxidation time (Figures 8c,d), although an excess amount of hydroxyl radicals could exist as compared to the total RES amount.…”

Section: ■ Results and Discussionmentioning

confidence: 92%

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Multi-Level Characterization of the Membrane Properties of Resveratrol-Incorporated Liposomes

et al. 2017

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Resveratrol (RES) is a type of polyphenolic compound discovered from grapes and has gained prominence as a possible contributor to many disease treatments. Herein, three different types of liposomes were prepared as model cell membranes, and then the influence of the incorporation of RES on their membrane properties was evaluated by utilizing membrane-binding fluorescent probes. The binding of RES lead to the membrane polarities decreasing slightly, regardless of the phase states of the membrane, while the membrane fluidities decreased only in the case of liquid-disordered phase. In each model membrane system, the incorporation of RES dramatically dehydrated the membrane surface, which could prevent the permeation of water-soluble materials. Fluorescence quenching of Laurdan indicated less accessibility of hydroxyl radial into the inner region of the RES-incorporated membrane. The comparison between the mass spectra of oxidized DOPC molecules treated with hydroxyl radical revealed that the RES-incorporation into DOPC membranes can contribute to prevent lipid oxidation. It is concluded that the binding of RES to the lipid membrane can play a key role in affecting membrane properties and functions.

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Section: Results and Discussionmentioning

confidence: 64%

Section: ■ Results and Discussionmentioning

confidence: 92%

Multi-Level Characterization of the Membrane Properties of Resveratrol-Incorporated Liposomes

et al. 2017

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“…Despite there is no regulatory requirement to test preclinical toxicity of drug carriers, it is important to study the potential adverse effect induced by endocytosis of high dose of drug carriers [127,128] . Some lipids, e.g., dioleoyl-3-trimethylammonium propane could induce oxidative stress and exhibit gene silencing effect [129] , which could alter the original state of cells if administered overdose. Furthermore, overdose of immunomodulating drugs will result in inflammation or weakening of immune system, where careful investigations are required in dosimetry.…”

Section: Slpb-coating Improved Therapeutics Effect Of Drugsmentioning

confidence: 99%

Antigen presenting cells-targeted liposome by Levilactobacillus brevis surface layer protein coating

Tan¹

2022

Preprint

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Drug delivery to intestinal antigen presenting cells (APCs) is a challenging task due to the harsh and diverse environment in mammalian gastrointestinal (GI) tract, short retention time in intestines, mucosal and endothelial barriers which prevent the drugs from accessing Peyer’s patches where APCs resides. To deliver drugs to intestinal APCs, the drugs should be encapsulated in carriers which are stable against environment in GI tract and possess APCs-targeting capability. In this study, a targeted ligand drug delivery system to target intestinal APCs was developed through coating of carriers with SlpB from Levilactobacillus brevis.SlpB from Lv. brevis was extracted with 5 M lithium chloride solution and coated on drug carriers. The adsorption capacity of SlpB on all drug carriers evaluated in this study was 400 mg g-1 [SlpB LP-1]. The adsorption curve was compared to the concentration of SlpB required to achieve maximum stability of SlpB-coated liposome (SlpB-LP), and the liposome coated with SlpB at maximum coating capacity showed maximum stability. Formation of 12.9 nm-thick layer of SlpB on liposome was observed with microscopy, and analysis with electrophoretic mobility showed that SlpB reduces ζ potential of anionic liposomes. Improvement of colloid stability of liposome via SlpB-coating due to increase in absolute ζ potential was confirmed with narrower size distribution of SlpB-LP.SlpB-coating enhance stability of liposome against pH ranging from pH 2 - 9. Robustness of SlpB-adsorption on the surface of liposome under various pH was confirmed, and the result suggests that SlpB-adsorption was stable. Furthermore, stability against 0.5 - 3.0% gall solution which can emulsify liposome, and stability against simulated gastric fluid and simulated intestinal fluid which contains pepsin and pancreatin were also improved by SlpB-coating. The result suggests that SlpB has improved stability of liposomes under all gut-mimicking environments.Furthermore, endocytosis of SlpB-coated carriers was evaluated with dendritic cell (DC) and macrophage (MΦ). I have found that SlpB-coating has significantly enhanced endocytosis of carriers into DC and MΦ. The effect of size of liposome on endocytosis was negligible. Investigation of receptors which binds to SlpB suggests that SlpB binds to DC-SIGN and Mincle which are both C-type lectins, through glycan chain. In vivo study suggests that SlpB could improve stability of liposome in GI tract by 5.4- and 6.1-fold at 1 h and 3 h after oral administration. SlpB has facilitated enrichment of LP in Peyer’s patches and blood, while no unspecific absorption into intestine and low retention in liver was detected. Enrichment of liposome in Peyer’s patches is correlated to bioavailability, and SlpB has improved bioavailability by 427.6-fold. Unlike SlpA, no unspecific absorption of SlpB-LP to intestine and mucosal layer was detected. The route of SlpB-LP delivery to intestinal APCs was through transcytosis by M cells and specific endocytosis by CD23+ APCs, which consist of follicular DC and MΦ. Improved antigen presentation at interfollicular region and germinal centre were also confirmed.Moreover, SlpB also exhibit adjuvant effect which might improve therapeutic effect of drug. Production of IL-6, IL-10, IL-12 and IL-17 increased significantly when DC was co-stimulated with ovalbumin and SlpB or lipopolysaccharide and SlpB. Evaluation with α-galactosylceramide-loaded liposome (αGCLP) showed increase in expression of anti-tumour cytokines both in vitro and in vivo. For instance, SlpB-αGCLP has increased production of IL-12 and decreased production of IL-10, while upregulated expression of IL-6, IL-10, TNF-α in DC. On the other hand, in situ expression of IL-4 and IL-5 were downregulated, while expression of IL-12, IFN-γ and TNF-α were upregulated in Peyer’s patches of mice administered with SlpB-αGCLP compared to αGCLP. The results have suggested that oral delivery of SlpB-LP could enhance therapeutic effect through improved stability of liposome, specific uptake of drug carriers by APCs, and induction of adjuvant effect, which has stimulated injection-like effect.To investigate the mechanism of SlpB-binding to APCs, presence of glycan chain in SlpB was investigated. N-glycan structure was revealed in SlpB by treatment with N-glycosidase. The function of sugar chain in DC-interaction was confirmed with competitive assay with D-glucose, D-galactose and D-mannose. Fragments of trypsinised SlpB which are responsible for DC-binding were identified, and the result suggests that 4 fragments with highest hydrophilicity were responsible in DC-binding.In conclusion, coating of SlpB from Lv. brevis has improved stability of liposome, functionalised to enhance transcytosis through M cells, enhanced endocytosis by APCs via specific binding with the receptors and potentiated the therapeutic of drugs.

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Assessment of red onion on antioxidant activity in rat

Lee

Jung

Kim

2012

Food and Chemical Toxicology

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Oxidative Stress Can Affect the Gene Silencing Effect of DOTAP Liposome in an In Vitro Translation System

Cited by 8 publications

References 30 publications

Multi-Level Characterization of the Membrane Properties of Resveratrol-Incorporated Liposomes

Multi-Level Characterization of the Membrane Properties of Resveratrol-Incorporated Liposomes

Antigen presenting cells-targeted liposome by Levilactobacillus brevis surface layer protein coating

Assessment of red onion on antioxidant activity in rat

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