Soy Lecithin-Derived Liposomal Delivery Systems: Surface Modification and Current Applications

Le, Ngoc Thuy Trang; Cao, Van Du; Nguyen, Thi Nhu Quynh; Le, Thi Thu Hong; Tran, Thach Thao; Thi, Thai Thanh Hoang

doi:10.3390/ijms20194706

Cited by 92 publications

(60 citation statements)

References 138 publications

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“…In general, cellular uptake of drug-containing nanocarriers, including liposomes, will determine both the efficacy of drug delivery and toxic effects of carrier-associated drugs or active molecules. Liposomes made of natural phospholipids offer reassuring safety profiles [4] and become one of the most studied nanomedicines. Their versatility offers opportunities to tailor their features to enhance specific interactions with the target site.…”

Section: Introductionmentioning

confidence: 99%

Following the Fate of Dye-Containing Liposomes In Vitro

Cauzzo

Nystad

Holsæter

et al. 2020

IJMS

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The rather limited success of translation from basic research to clinical application has been highlighted as a major issue in the nanomedicine field. To identify the factors influencing the applicability of nanosystems as drug carriers and potential nanomedicine, we focused on following their fate through fluorescence-based assays, namely flow cytometry and imaging. These methods are often used to follow the nanocarrier internalization and targeting; however, the validity of the obtained results strictly depends on how much the nanosystem’s fate can be inferred from the fate of fluorescent dyes. To evaluate the parameters that affect the physicochemical and biological stability of the labeled nanosystems, we studied the versatility of two lipid dyes, TopFluor®-PC and Cy5-DSPE, in conventional liposomes utilizing well-defined in vitro assays. Our results suggest that the dye can affect the major characteristics of the system, such as vesicle size and zeta-potential. However, a nanocarrier can also affect the dye properties. Medium, temperature, time, fluorophore localization and its concentration, as well as their interplay, affect the outcome of tracing experiments. Therefore, an in-depth characterization of the labeled nanosystem should be fundamental to understand the conditions that validate the results within the screening process in optimization of nanocarrier.

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Section: Introductionmentioning

confidence: 99%

Following the Fate of Dye-Containing Liposomes In Vitro

Cauzzo

Nystad

Holsæter

et al. 2020

IJMS

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“…The structure of phospholipid nanoparticles is similar to mammalian cell wall, hence served as a biocompatible, non-irritant, and biodegradable vehicle for cell permeation. 20,21 Having oligosaccharide binding on the cell surface, various proteins or protein domains called lectins have been applied as targeting agents for many drugs. 22,23 Lectin grafted nanoparticles are among emerging carriers for enhancing cellular uptake, ie, wheat germ agglutinin (WGA) and Ulex europaeus agglutinin I (UEA1).…”

Section: Introductionmentioning

confidence: 99%

“…The structure of phospholipid nanoparticles is similar to mammalian cell wall, hence served as a biocompatible, non-irritant, and biodegradable vehicle for cell permeation. 20 , 21 …”

Section: Introductionmentioning

confidence: 99%

“…57 Nanoparticle Internalization into the Cell Lecithin has been purposed for intracellular trafficking of various drugs. 20,21,41 For internalization study, a fluorochrome was employed to visualize the Rif-NP-AM using a confocal microscope following previous reports. [58][59][60] Balb/3T3 fibroblast cell selected in this study is among other cells used to evaluate intracellular S. aureus infection.…”

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confidence: 99%

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<p>ArtinM Grafted Phospholipid Nanoparticles for Enhancing Antibiotic Cellular Uptake Against Intracellular Infection</p>

Suciati

Nafisa

Nareswari

et al. 2020

IJN

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Background and Aim An antimicrobial delivery in the form of surface-modified lectin of lipid nanoparticles was proposed to improve cellular accumulation. ArtinM, an active toll-like receptor 2 (TLR2) agonist lectin isolated from cempedak ( Arthocarpus integrifolia) seeds, was selected to induce cellular engulfment of nanoparticles within infected host cells. Materials and Methods Lipid nanoparticles were prepared using the emulsification technique before electrostatic adsorption of artinM. The formula comprising of rifampicin, soy phospholipid, and polysorbate 80 was optimized by Box-Behnken design to produce the desired particle size, entrapment efficiency, and drug loading. The optimum formula was characterized for morphology, in vitro release, and cellular transport. Results and Discussion Soy phospholipid showed a profound effect on controlling drug loading and entrapment efficiency. Owing to its surface activity, polysorbate 80 contributed significantly to reduce particle size; however, a higher ratio to lipid concentration resulted in a decrease of rifampicin encapsulation. The adsorption of artinM on the surface of nanoparticles was accomplished by electrostatic binding at pH 4, where this process maintained the stability of encapsulated rifampicin. A high proportion of artinM adsorbed on the surface of the nanoparticles shown by haemagglutination assay, zeta potential measurement, and transmission electron microscopy imaging. Cellular uptake revealed by confocal microscopy showed the success in transporting Nile-red labelled nanoparticles across fibroblast cells. Conclusion The delivery system of nanoparticles bearing artinM becomes a potential platform technology for antibiotic targeting in the treatment of life-threatening chronic diseases caused by intracellular infections.

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“…Analytical and in-depth research on the treatment of tumors has been carried out for a considerable length of time, for instance, chemotherapy which has been demonstrated to be viable has for several years received a significant amount of interest. However, the main limitation of the current clinical application of chemotherapy drugs is their respective wide bio-distribution and short half-life [8,9,10]. It is therefore critical to develop novel medicine delivery systems to overcome the underlying limitations and also improve the efficiency of the cancer treatment methods that are available.…”

Section: Introductionmentioning

confidence: 99%

Recent Progress and Advances of Multi-Stimuli-Responsive Dendrimers in Drug Delivery for Cancer Treatment

Nguyen

Cao

et al. 2019

Pharmaceutics

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Despite the fact that nanocarriers as drug delivery systems overcome the limitation of chemotherapy, the leakage of encapsulated drugs during the delivery process to the target site can still cause toxic effects to healthy cells in other tissues and organs in the body. Controlling drug release at the target site, responding to stimuli that originated from internal changes within the body, as well as stimuli manipulated by external sources has recently received significant attention. Owning to the spherical shape and porous structure, dendrimer is utilized as a material for drug delivery. Moreover, the surface region of dendrimer has various moieties facilitating the surface functionalization to develop the desired material. Therefore, multi-stimuli-responsive dendrimers or ‘smart’ dendrimers that respond to more than two stimuli will be an inspired attempt to achieve the site-specific release and reduce as much as possible the side effects of the drug. The aim of this review was to delve much deeper into the recent progress of multi-stimuli-responsive dendrimers in the delivery of anticancer drugs in addition to the major potential challenges.

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Soy Lecithin-Derived Liposomal Delivery Systems: Surface Modification and Current Applications

Cited by 92 publications

References 138 publications

Following the Fate of Dye-Containing Liposomes In Vitro

Following the Fate of Dye-Containing Liposomes In Vitro

<p>ArtinM Grafted Phospholipid Nanoparticles for Enhancing Antibiotic Cellular Uptake Against Intracellular Infection</p>

Recent Progress and Advances of Multi-Stimuli-Responsive Dendrimers in Drug Delivery for Cancer Treatment

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