Estimating the two graph dextran-stearic acid-spermine polymers based on iron oxide nanoparticles as carrier for gene delivery
Autor: | Hossein Shaki, Mehrnoosh Kazemi Ashtiyani, Saman Hosseinkhani, Behnam Hajipour-Verdom, Parviz Abdolmaleki, Mohammad Satari |
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Rok vydání: | 2022 |
Předmět: |
chemistry.chemical_classification
Polymers Organic Chemistry Biophysics Gene Transfer Techniques Spermine Dextrans General Medicine Polymer Gene delivery Transfection Biochemistry Biomaterials chemistry.chemical_compound Dextran chemistry Chemical engineering Nanoparticles Magnetic Iron Oxide Nanoparticles Stearic acid Particle Size Iron oxide nanoparticles Stearic Acids Plasmids |
Zdroj: | BiopolymersREFERENCES. 113(7) |
ISSN: | 1097-0282 |
Popis: | BackgroundNon-viral gene carriers because of their limited side effects, biocompatibility, simplicity and taking the advantages of electrostatic interactions have shown noticeable potential in gene delivery. The low transfection rate of non-viral vectors under physiological conditions is a significant issue. MethodsWe investigated the efficacy of hydrophilic and hydrophobic groups on gene carriers such as two synthesized amphiphilic polymer of dextran-stearic acid-spermine (DSASP) with verified lipid and amine conjugations that associated with Fe3O4 superparamagnetic nanoparticles to promote the target delivery and decrease the transfection time using static magnetic field.ResultsOur findings illustrate that magnetic nanoparticles are spherical with positive surface charges and superparamagnetic behaviors. The DSASP–pDNA/MNPs offered a strong pDNA condensation, protection against DNase degradation, significant cell viability in HEK 293T cells. Although conjugations of spermine play a critical role in transfection efficiency, amphiphilic polymer with more derivatives of stearic acid showed better transfection yields. ConclusionDSASP amphiphilic magnetic carriers offer new insights for gene delivery due to the amine contents and ameliorate the uptake of complexes via cell membrane based on its hydrophilic surface. |
Databáze: | OpenAIRE |
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