Ternary complex of plasmid DNA with NLS-Mu-Mu protein and cationic niosome for biocompatible and efficient gene delivery: a comparative study with protamine and lipofectamine

Nematollahi, Mohammad Hadi; Torkzadeh-Mahanai, Masoud; Pardakhty, Abbas; Meimand, Hossein Ali Ebrahimi; Asadikaram, Gholamreza

doi:10.1080/21691401.2017.1392316

Cited by 17 publications

(13 citation statements)

References 46 publications

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“…A, The percentage of viable cells (NSCs) loaded with supra paramagnetic iron oxide NPs (SPIONs). The concentrations of SPIONs as indicated (10,25,50, and 100 mg/mL) at different incubation times (1, 1.5, 3, 6, 12, and 24 hr, respectively). B, the percentage of viable cells loaded with SPIONs coated with ploy-L-Lysine (SPIONs-PLL) at 25, 50, and 100 mg/mL.…”

Section: Discussionmentioning

confidence: 99%

“…Silica nanoparticles (NPs) have been demonstrated for achieving the impermanent gene transfer in vivo as a non-viral vector systems [9]. Some of non-viral carriers were designed and developed to overcome the challenges of ineffective DNA-endosomal capture and release from the carrier vector into the nucleus, and represent a promising methods for gene delivery purposes [10]. Superparamagnetic iron oxide NPs (SPIONs) are widely used for biomedical applications, such as target gene delivery systems and gene therapy, It can be used also in cancer chemotherapy as drug carrier after coated with biocompatible polymers [11,12] SPIONs with unique magnetic properties are being actively investigated as magnetic resonance imaging contrast agents [12], It can be properly designed and engineered to reach their target tissue with less nonspecific cellular interactions [13,14].…”

Section: Introductionmentioning

confidence: 99%

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Poly-l-lysine-coated superparamagnetic nanoparticles: a novel method for the transfection of pro-BDNF into neural stem cells

Albukhaty

Naderi-Manesh

Tiraihi

et al. 2018

Artificial Cells, Nanomedicine, and Biotechnology

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Poly-l-lysine-coated superparamagnetic iron oxide nanoparticles (SPIONs-PLL) were prepared and used as a novel-carrier for the transfer of brain-derived neurotrophic factor (BDNF) into neural stem cells (NSCs) under the beneficial influence of an external magnetic field. Pro-BDNF, a gene from human brain cDNA libraries, was obtained by polymerase chain reaction and constructed in a mammalian expression vector (PSecTag2/HygroB). The nanoparticles (NPs) were examined using Fourier transform infrared spectroscopy, zeta potential, and Transmission electron microscopy. From the results, the levels of BDNF among the transfected and untransfected cells were 30.326 ± 5.9 and 5.85 ± 3.11 pg/mL, respectively, as detected by an ELISA method. Moreover, the enhanced green fluorescent protein vector was used to evaluate the gene expression efficiency for SPIONs-PLL as a non-viral carrier in NSCs. This was performed under the influence of a magnetic field and the transfection reagents (such as Lipofectamine 2000), which served as a positive control. The histological analysis revealed that the concentration of intracellular NPs was significantly higher than intercellular NPs. These results suggest that SPIONs-PLL can serve as a novel alternative for the transfection of BDNF-NSCs and could be used in gene therapy.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Poly-l-lysine-coated superparamagnetic nanoparticles: a novel method for the transfection of pro-BDNF into neural stem cells

Albukhaty

Naderi-Manesh

Tiraihi

et al. 2018

Artificial Cells, Nanomedicine, and Biotechnology

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“…Niosome, a bilayer non-ionic surfactant-based vesicle, is a novel drug delivery system. Having the nanometric scale size, biodegradability, relatively nontoxic property, remarkable stability, long storage time and low cost has enabled niosomes to be forerunners of other nano-carriers [15]. According to Figure 1, when the present delivery system is accompanied with the external stimuli such as pH and the temperature, it triggers the release of the drugs named thermo-and pH-sensitive niosome.…”

Section: Introductionmentioning

confidence: 99%

Development and characterization of a novel cationic PEGylated niosome-encapsulated forms of doxorubicin, quercetin and siRNA for the treatment of cancer by using combination therapy

Hemati

Haghiralsadat

Yazdian

et al. 2018

Artificial Cells, Nanomedicine, and Biotechnology

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The aim of this study was to optimize the cationic PEGylated niosome-containing anti-cancer drugs and siRNA to enhance the therapeutic response. Therefore, various surfactant-based (tween-60) vesicles of doxorubicin (DOX; a chemotherapeutic drug) and quercetin (QC; a chemosensitizer) were prepared. To load siRNA on niosomes, 1, 2-dioleoyl-3-trimethylammonium-propane (DOTAP) was used as a cationic lipid. The optimum formulation containing tween-60:cholesterol:DPPC:DOTAP:DSPE-PEG2000 at 49.5:5.5:15:25:5 demonstrated that the vesicle size and zeta potential were 52.8 ± 2.7 nm and +27.4 ± 2.3 mV, respectively. Entrapment efficiency (EE%) for DOX and QC was 86.4 ± 2.1% and 94.9 ± 3.9%, respectively. Moreover, the drug release during 6 h was 32.1 ± 1.6% and 30.5 ± 1.3% for DOX and QC, respectively denoted on the controlled release. The gel retardation assay demonstrated that siRNA could be successfully loaded into a cationic niosome:siRNA in a weight ratio 40:1. Additionally, noisome-encapsulated drugs had a higher toxicity against cancer cells when compared with un-encapsulated forms and the synergistic effects of co-delivery of siRNA and DOX with QC on gastric, prostate, breast cancer cells as well as human foreskin fibroblast as a normal cell line was shown. The results showed that the co-delivery of drugs and siRNA using cationic PEGylated niosomes exhibited an increased anti-cancer activity against the tumor cell death. It seems that cationic PEGylated niosomes have opened up a new avenue to enrich the armamentarium of therapeutic agents to fight cancer.

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“…Interestingly, after electrotransfection of GFP-vinculin plasmid, we further delivered phalloidin (a fluorescent F-actin probe) into the fibroblasts, demonstrating the capability of our setup in delivering multiple dyes/particles into live cells in a controllable manner, which can greatly help researchers in elucidating the individual and collective roles of different proteins in various cellular processes. We also want to point out that, compared to conventional methods such as bulk electroporation [29] (requiring high-operation voltage, typically of the order of hundreds of volts) and rather expensive transfection reagents like lipofectamine [30], our micro-electroporation approach could offer advantages such as easy/safe to operate, low cost and real-time monitoring.…”

Section: Discussionmentioning

confidence: 99%

A Novel Electroporation System for Living Cell Staining and Membrane Dynamics Interrogation

et al. 2020

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A novel electroporation system was developed to introduce transient membrane pores to cells in a spatially and temporally controlled manner, allowing us to achieve fast electrotransfection and live cell staining as well as to systematically interrogate the dynamics of the cell membrane. Specifically, using this platform, we showed that both reversible and irreversible electroporation could be induced in the cell population, with nano-sized membrane pores in the former case being able to self-reseal in ~10 min. In addition, green fluorescent protein(GFP)-vinculin plasmid and 543 phalloidin have been delivered successively into fibroblast cells, which enables us to monitor the distinct roles of vinculin and F-actin in cell adhesion and migration as well as their possible interplay during these processes. Compared to conventional bulk electroporation and staining methods, the new system offers advantages such as low-voltage operation, cellular level manipulation and testing, fast and adjustable transfection/staining and real-time monitoring; the new system therefore could be useful in different biophysical studies in the future.

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Ternary complex of plasmid DNA with NLS-Mu-Mu protein and cationic niosome for biocompatible and efficient gene delivery: a comparative study with protamine and lipofectamine

Cited by 17 publications

References 46 publications

Poly-l-lysine-coated superparamagnetic nanoparticles: a novel method for the transfection of pro-BDNF into neural stem cells

Poly-l-lysine-coated superparamagnetic nanoparticles: a novel method for the transfection of pro-BDNF into neural stem cells

Development and characterization of a novel cationic PEGylated niosome-encapsulated forms of doxorubicin, quercetin and siRNA for the treatment of cancer by using combination therapy

A Novel Electroporation System for Living Cell Staining and Membrane Dynamics Interrogation

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