Effective Labeling of Primary Somatic Stem Cells with BaTiO3 Nanocrystals for Second Harmonic Generation Imaging

Effective Labeling of Primary Somatic Stem Cells with BaTiO3 Nanocrystals for Second Harmonic Generation Imaging

While nanoparticles are an increasingly popular choice for labeling and tracking stem cells in biomedical applications such as cell therapy, their intracellular fate and subsequent effect on stem cell differentiation remain elusive. To establish an effective stem cell labeling strategy, the intracel...

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Bibliographic Details
Published in:Small (Weinheim an der Bergstrasse, Germany) Vol. 14; no. 8
Main Authors: Sugiyama, Nami, Sonay, Ali Y., Tussiwand, Roxanne, Cohen, Bruce E., Pantazis, Periklis
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 22-02-2018
Subjects:
barium titanate
Barium titanates
Biomedical materials
cell cycle
Differentiation (biology)
Electron microscopy
hematopoietic stem cells
Labeling
Nanocrystals
Nanoparticles
Nanotechnology
Second harmonic generation
Stem cells
Tracking
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Summary:While nanoparticles are an increasingly popular choice for labeling and tracking stem cells in biomedical applications such as cell therapy, their intracellular fate and subsequent effect on stem cell differentiation remain elusive. To establish an effective stem cell labeling strategy, the intracellular nanocrystal concentration should be minimized to avoid adverse effects, without compromising the intensity and persistence of the signal necessary for long‐term tracking. Here, the use of second‐harmonic generating barium titanate nanocrystals is reported, whose achievable brightness allows for high contrast stem cell labeling with at least one order of magnitude lower intracellular nanocrystals than previously reported. Their long‐term photostability enables to investigate quantitatively at the single cell level their cellular fate in hematopoietic stem cells (HSCs) using both multiphoton and electron microscopy. It is found that the concentration of nanocrystals in proliferative multipotent progenitors is over 2.5‐fold greater compared to quiescent stem cells; this difference vanishes when HSCs enter a nonquiescent, proliferative state, while their potency remains unaffected. Understanding the nanoparticle stem cell interaction allows to establish an effective and safe nanoparticle labeling strategy into somatic stem cells that can critically contribute to an understanding of their in vivo therapeutic potential. Bright second harmonic generating nanoprobes are used to label hematopoietic stem cells (HSCs) in order to investigate the cellular factors that affect labeling efficiency. Effective labeling of HSCs can be accomplished by inducing quiescent HSCs to enter the proliferative state, while their potency remains unchanged.
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ISSN:1613-6810
1613-6829
DOI:10.1002/smll.201703386