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Stem cell labeling using polyethylenimine conjugated (alpha-NaYbF4:Tm3+)/CaF2 upconversion nanoparticles
University of Massachusetts Medical School Faculty Publications
  • Liang Zhao, University of Massachusetts Medical School
  • Artem Kutikov, University of Massachusetts Medical School
  • Jie Shen, University of Massachusetts Medical School
  • Chunying Duan, Dalian University of Technology
  • Jie Song, University of Massachusetts Medical School
  • Gang Han, University of Massachusetts Medical School
UMMS Affiliation
Department of Orthopedics and Physical Rehabilitation; Department of Biochemistry and Molecular Pharmacology; Department of Cell and Developmental Biology
Publication Date
3-20-2013
Document Type
Article
Abstract
We report on a polyethylenimine (PEI) covalently conjugated (alpha-NaYbF4:Tm3+)/CaF2 upconversion nanoparticle (PEI-UCNP) and its use for labeling rat mesenchymal stem cells (rMSCs). The PEI-UCNPs absorb and emit near-infrared light, allowing for improved in vivo imaging depth over conventional probes. We found that such covalent surface conjugation by PEI results in a much more stable PEI-UCNP suspension in PBS compared to conventional electrostatic layer by layer (LbL) self-assembling coating approach. We systematically examined the effects of nanoparticle dose and exposure time on rat mesenchymal stem cell (rMSC) cytotoxicity. The exocytosis of PEI-UCNPs from labeled rMSCs and the impact of PEI-UCNP uptake on rMSC differentiation was also investigated. Our data show that incubation of 100-microg/mL PEI-UCNPs with rMSCs for 4 h led to efficient labeling of the MSCs, and such a level of PEI-UCNP exposure imposed little cytotoxicity to rMSCs (95% viability). However, extended incubation of PEI-UCNPs at the 100 microg/mL dose for 24 hour resulted in some cytotoxicity to rMSCs (60% viability). PEI-UCNP labeled rMSCs also exhibited normal early proliferation, and the internalized PEI-UCNPs did not leak out to cause unintended labeling of adjacent cells during a 14-day transwell culture experiment. Finally, PEI-UCNP labeled rMSCs were able to undergo osteogenic and adipogenic differentiation upon in vitro induction, although the osteogenesis of labeled rMSCs appeared to be less potent than that of the unlabeled rMSCs. Taken together, PEI-UCNPs are promising agents for stem cell labeling and tracking.
Keywords
  • Near Infrared,
  • Photoluminescence,
  • Bioimaging,
  • Upconversion Nanoparticles,
  • Stem cell
Rights and Permissions
Citation: Zhao L, Kutikov A, Shen J, Duan C, Song J, Han G. Stem Cell Labeling using Polyethylenimine Conjugated (α-NaYbF4:Tm3+)/CaF2 Upconversion Nanoparticles. Theranostics 2013; 3(4):249-257. doi:10.7150/thno.5432. doi: 10.7150/thno.5432. Link to article on publisher's site
Comments

Publisher PDF posted as allowed by the publisher's author rights policy at http://www.thno.org/ms/copyrightagreement.

Co-author Artem B. Kutikov is a doctoral student in the Cell Biology program in the Graduate School of Biomedical Sciences (GSBS) at UMass Medical School.

Related Resources
Link to Article in PubMed
PubMed ID
23606911
Citation Information
Liang Zhao, Artem Kutikov, Jie Shen, Chunying Duan, et al.. "Stem cell labeling using polyethylenimine conjugated (alpha-NaYbF4:Tm3+)/CaF2 upconversion nanoparticles" Vol. 3 Iss. 4 (2013) ISSN: 1838-7640 (Linking)
Available at: http://works.bepress.com/jie_song/1/