Influence of Physicochemical Properties and PEG Modification of Magnetic Liposomes on Their Interaction with Intestinal Epithelial Caco-2 Cells

Kono, Yusuke; Jinzai, Hitomi; Kotera, Yota; Fujita, Takuya

doi:10.1248/bpb.b17-00563

Cited by 10 publications

(10 citation statements)

References 46 publications

(53 reference statements)

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“…Although the surface of the Caco-2 monolayer appears to be hydrophobic, it is known that charged particles can become strongly attached. In studies using liposomes (35) and oil droplets (36), it has been demonstrated that cationic particles can attach to Caco-2 monolayers to a greater extent than anionic and neutral particles. The polymeric hemisphere-orientated attachment of the Janus microspheres to Caco-2 monolayers observed in the present study appears to be consistent with the findings of these studies, because these microspheres consist of cationic polymer and neutral hard-fat hemispheres.…”

Section: Discussionmentioning

confidence: 99%

Janus microspheres for enhanced enteral drug delivery: Preparation and orientated attachment to a Caco-2 monolayer

Matsumoto

Watanabe

Murakami

2019

DD&T

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Section: Discussionmentioning

confidence: 99%

Janus microspheres for enhanced enteral drug delivery: Preparation and orientated attachment to a Caco-2 monolayer

Matsumoto

Watanabe

Murakami

2019

DD&T

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“…Magnetic cationic liposomes were prepared as reported previously (Kono et al., 2017). Magnetic cationic liposomes consisted of 1,2-dioleoyl-3-trimethylammonium-propane (DOTAP) (Avanti Polar Lipids Inc., Alabaster, AL, USA), 1,2-distearoyl- sn -glycero-3-phosphocholine (DSPC) (Avanti Polar Lipids), and cholesterol (Nacalai Tesque, Kyoto, Japan) at molar ratios of 5:0:5, 4:1:5, 3:2:5, or 2:3:5.…”

Section: Methodsmentioning

confidence: 99%

“…For the efficient introduction of SPIONs into macrophages, we intended to exploit cationic liposomes, because we have previously prepared cationic liposomes with encapsulated SPIONs (magnetic cationic liposomes) and demonstrated that they underwent cellular uptake in a short time under a magnetic field (Kono et al., 2017). In addition, cationic liposomes can form a complex with plasmid DNA (pDNA) (Masotti et al., 2009), and therefore, magnetic cationic liposomes would enable the simultaneous delivery of SPIONs and pDNA into macrophages.…”

Section: Introductionmentioning

confidence: 99%

Enhanced macrophage delivery to the colon using magnetic lipoplexes with a magnetic field

et al. 2019

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Magnetically guided cell delivery systems would be valuable to achieve effective macrophage-based cell therapy for colonic inflammatory diseases. In the current study, we developed a method for the efficient and simultaneous introduction of superparamagnetic iron oxide nanoparticles (SPIONs) and plasmid DNA (pDNA) into RAW264 murine macrophage-like cells using SPION-incorporated cationic liposome/pDNA complexes (magnetic lipoplexes). SPIONs and pDNA were introduced for magnetization and functionalization of the macrophages, respectively. We also evaluated the adhesive properties of magnetized RAW264 cells using magnetic lipoplexes in the murine colon under a magnetic field. Significant cellular association and gene expression without cytotoxicity were observed when magnetic cationic liposomes and pDNA were mixed at a weight ratio of 10:1, and SPION concentration and magnetic field exposure time was 0.1 mg/mL and 10 min, respectively. We also observed that cytokine production in magnetized RAW264 cells was similar to that in non-treated RAW264 cells, whereas nitric oxide production was significantly increased in magnetized RAW264 cells. Furthermore, magnetized RAW264 cells highly adhered to a Caco-2 cell monolayer and colon in mice, under a magnetic field. These results suggest that this magnetic cell delivery system can improve the colonic delivery of macrophages and its therapeutic efficacy against colonic inflammatory diseases.

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“…For example, cationic liposomes have high monodispersity and stability because of their electrostatic repulsion (Bozzuto & Molinari, 2015 ). In addition, we and other groups have demonstrated that magnetic cationic liposomes (Mag-CL) electrostatically interact with the anionic regions of the cell surface, resulting in efficient cell uptake (Dandamudi & Campbell, 2007 ; Shido et al., 2010 ; Kono et al., 2017 ). However, cationic lipids and cationic polymers, which are major components of cationic liposomes, have been known to exhibit strong toxicity (Lv et al., 2006 ).…”

Section: Introductionmentioning

confidence: 99%

Development of magnetic anionic liposome/atelocollagen complexes for efficient magnetic drug targeting

et al. 2017

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Magnetic nanoparticle-incorporated liposomes (magnetic liposomes) are considered a promising site-specific drug delivery carrier vehicle. With regard to their surface charge, magnetic anionic liposomes (Mag-AL) demonstrate little toxicity in comparison with magnetic cationic liposomes (Mag-CL), whereas their cellular association and uptake efficiency are low. In the current study, we constructed complexes of Mag-AL and atelocollagen (ATCOL), which is a biocompatible and minimally immunogenic biomaterial, to improve the cellular uptake properties of Mag-AL in vitro and in vivo. The cellular association and/or uptake of Mag-AL in RAW264 cells, a murine macrophage-like cell line, under a magnetic field was significantly increased when Mag-AL was complexed with ATCOL, and the highest cellular association was observed with complexes constructed using 5 µg/mL of ATCOL. The complexes showed liposome concentration-dependent and time-dependent cellular association under a magnetic field, and their cellular uptake efficiency was comparable with that of Mag-CL. In addition, Mag-CL showed significant cytotoxicity in a liposome concentration-dependent manner, whereas Mag-AL/ATCOL complexes produced no cytotoxic effect against RAW264 cells. Furthermore, the efficient cellular association of Mag-AL/ATCOL complexes in RAW264 cells was observed even in the presence of serum, and their liver accumulation was significantly increased at a magnetic field-exposed region after intravenous injection in rats. These results indicate that Mag-AL/ATCOL complexes could be a safe and efficient magnetic responsive drug carrier.

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Influence of Physicochemical Properties and PEG Modification of Magnetic Liposomes on Their Interaction with Intestinal Epithelial Caco-2 Cells

Cited by 10 publications

References 46 publications

Janus microspheres for enhanced enteral drug delivery: Preparation and orientated attachment to a Caco-2 monolayer

Janus microspheres for enhanced enteral drug delivery: Preparation and orientated attachment to a Caco-2 monolayer

Enhanced macrophage delivery to the colon using magnetic lipoplexes with a magnetic field

Development of magnetic anionic liposome/atelocollagen complexes for efficient magnetic drug targeting

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