Water-Based suspensions of iron oxide nanoparticles with electrostatic or steric stabilization by chitosan: Fabrication, characterization and biocompatibility(Article)(Open Access)
- aDepartamento de Electricidad y Electrónica and BCMaterials, Universidad del País Vasco UPV-EHU, Bilbao, 48080, Spain
- bInstitute of Natural Sciences and Mathematics, Ural Federal University, Ekaterinburg, 620002, Russian Federation
- cLaboratory of Immunology and Cell Biotechnology, I. Kant Baltic Federal University, Kaliningrad, 23601, Russian Federation
- dInstitute of Electrophysics, Ural Division RAS, Ekaterinburg, 620016, Russian Federation
- eDepartment of Physical and Analytical Chemistry, National Research Tomsk Polytechnic University, Tomsk, 634050, Russian Federation
- fAdvanced Research Facilities (SGIKER), Universidad del País Vasco UPV-EHU, Bilbao, 48080, Spain
- gDepartment of Experimental Physics, National Research Tomsk Polytechnic University, Tomsk, 634050, Russian Federation
Abstract
Present day biomedical applications, including magnetic biosensing, demand better understanding of the interactions between living systems and magnetic nanoparticles (MNPs). In this work spherical MNPs of maghemite were obtained by a highly productive laser target evaporation technique. XRD analysis confirmed the inverse spinel structure of the MNPs (space group Fd-3m). The ensemble obeyed a lognormal size distribution with the median value 26.8 nm and dispersion 0.362. Stabilized water-based suspensions were fabricated using electrostatic or steric stabilization by the natural polymer chitosan. The encapsulation of the MNPs by chitosan makes them resistant to the unfavorable factors for colloidal stability typically present in physiological conditions such as pH and high ionic force. Controlled amounts of suspensions were used for in vitro experiments with human blood mononuclear leukocytes (HBMLs) in order to study their morphofunctional response. For sake of comparison the results obtained in the present study were analyzed together with our previous results of the study of similar suspensions with human mesenchymal stem cells. Suspensions with and without chitosan enhanced the secretion of cytokines by a 24-h culture of HBMLs compared to a control without MNPs. At a dose of 2.3, the MTD of chitosan promotes the stimulating effect of MNPs on cells. In the dose range of MNPs 10-1000 MTD, chitosan “inhibits” cellular secretory activity compared to MNPs without chitosan. Both suspensions did not caused cell death by necrosis, hence, the secretion of cytokines is due to the enhancement of the functional activity of HBMLs. Increased accumulation of MNP with chitosan in the cell fraction at 100 MTD for 24 h exposure, may be due to fixation of chitosan on the outer membrane of HBMLs. The discussed results can be used for an addressed design of cell delivery/removal incorporating multiple activities because of cell capability to avoid phagocytosis by immune cells. They are also promising for the field of biosensor development for the detection of magnetic labels. © 2017 by the authors. Licensee MDPI, Basel, Switzerland.
Indexed keywords
| Engineering controlled terms: | Antigen-antibody reactionsBiocompatibilityBiosensorsBloodCell cultureCell deathCellsChitinChitosanCytologyElectrostaticsFabricationIron oxidesMagnetic fluidsMagnetismMedical applicationsNanomagneticsPhysiologyStabilizationStem cells |
|---|---|
| Engineering uncontrolled terms | Human mesenchymal stem cellsInverse spinel structuresLog-normal size distributionsMagnetic biosensorsMagnetic nano-particlesMagnetic nanoparti cles (MNPs)Mononuclear leukocytesMorphofunctional response |
| Engineering main heading: | Nanoparticles |
| EMTREE drug terms: | chitosanferric ionferric oxidemagnetite nanoparticlewater |
| EMTREE medical terms: | humanmaterials testingstatic electricitysuspension |
| MeSH: | ChitosanFerric CompoundsHumansMagnetite NanoparticlesMaterials TestingStatic ElectricitySuspensionsWater |
Chemicals and CAS Registry Numbers:
chitosan, 9012-76-4; ferric ion, 20074-52-6; ferric oxide, 1309-37-1, 56449-54-8; water, 7732-18-5;
Chitosan; Ferric Compounds; ferric oxide; Magnetite Nanoparticles; Suspensions; Water
Funding details
| Funding sponsor | Funding number | Acronym |
|---|---|---|
| 20.4986.2017/6.7 | ||
| Russian Foundation for Basic Research | 16-08-00609,KK-2016/00030 | РФФИ |
| Ministry of Education and Science of the Russian Federation | 0389-2014-0002,3.6121.2017/8.9 | Minobrnauka |
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1
Acknowledgments: This work was supported in part within framework of a program for increasing competitiveness and with financial support from the Program for Organization of Research (20.4986.2017/6.7) of Immanuel Kant Baltic Federal University; in the framework of the state task of the Ministry of Education and Science of Russia 3.6121.2017/8.9; Russian Federation state task project 0389-2014-0002, RFBR grant 16-08-00609 and by the ELKARTEK grant KK-2016/00030 of the Basque Country Government. Selected studies were made at SGIKER Common Services of UPV-EHU and URFU Common Services. We thank Iulia P. Novoselova, Anatoly I. Medvedev, Aidar M. Murzakaev and Aitor Larrañaga for special support.
- ISSN: 14248220
- Source Type: Journal
- Original language: English
- DOI: 10.3390/s17112605
- PubMed ID: 29137198
- Document Type: Article
- Publisher: MDPI AG
Kurlyandskaya, G.V.; Departamento de Electricidad y Electrónica and BCMaterials, Universidad del País Vasco UPV-EHU, Bilbao, Spain;
© Copyright 2017 Elsevier B.V., All rights reserved.
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