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Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
by Hoettges, Kai F. , Hughes, Michael P. , Mulhall, Hayley J. , Marchenko, Steve A. , Flanagan, Lisa A. , Lee, Abraham P. , Estrada, Laura C. , Lu, Jente , Labeed, Fatima H.
in Analysis / Animals / Apoptosis / Biology / Biomarkers / Biomedical engineering / Brain research / Capacitance / Cell Differentiation / Cell fate / Cell Membrane - metabolism / Cell Separation / Cell surface / Chemical compounds / Cortex / Dielectric properties / Dielectrophoresis / Differentiation (biology) / Electric Capacitance / Electrophoresis / Electrophysiological Phenomena / Engineering / Female / Glial stem cells / Health aspects / Humans / Laboratories / Medical research / Membrane capacitance / Membrane conductance / Membranes / Mice / Microscopy / Neural stem cells / Neural Stem Cells - cytology / Neurogenesis / Neuroglia - cytology / Neuronal-glial interactions / Neurons / Neurons - cytology / Neurophysiology / Neurosciences / Pharmacology / Pregnancy / Printed circuit boards / Progenitor cells / Rodents / Spectrum analysis / Stem cell transplantation / Stem cells / Surface markers / Transplants & implants
2011
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Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
by Hoettges, Kai F. , Hughes, Michael P. , Mulhall, Hayley J. , Marchenko, Steve A. , Flanagan, Lisa A. , Lee, Abraham P. , Estrada, Laura C. , Lu, Jente , Labeed, Fatima H.
in Analysis / Animals / Apoptosis / Biology / Biomarkers / Biomedical engineering / Brain research / Capacitance / Cell Differentiation / Cell fate / Cell Membrane - metabolism / Cell Separation / Cell surface / Chemical compounds / Cortex / Dielectric properties / Dielectrophoresis / Differentiation (biology) / Electric Capacitance / Electrophoresis / Electrophysiological Phenomena / Engineering / Female / Glial stem cells / Health aspects / Humans / Laboratories / Medical research / Membrane capacitance / Membrane conductance / Membranes / Mice / Microscopy / Neural stem cells / Neural Stem Cells - cytology / Neurogenesis / Neuroglia - cytology / Neuronal-glial interactions / Neurons / Neurons - cytology / Neurophysiology / Neurosciences / Pharmacology / Pregnancy / Printed circuit boards / Progenitor cells / Rodents / Spectrum analysis / Stem cell transplantation / Stem cells / Surface markers / Transplants & implants
2011
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Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
by Hoettges, Kai F. , Hughes, Michael P. , Mulhall, Hayley J. , Marchenko, Steve A. , Flanagan, Lisa A. , Lee, Abraham P. , Estrada, Laura C. , Lu, Jente , Labeed, Fatima H.
in Analysis / Animals / Apoptosis / Biology / Biomarkers / Biomedical engineering / Brain research / Capacitance / Cell Differentiation / Cell fate / Cell Membrane - metabolism / Cell Separation / Cell surface / Chemical compounds / Cortex / Dielectric properties / Dielectrophoresis / Differentiation (biology) / Electric Capacitance / Electrophoresis / Electrophysiological Phenomena / Engineering / Female / Glial stem cells / Health aspects / Humans / Laboratories / Medical research / Membrane capacitance / Membrane conductance / Membranes / Mice / Microscopy / Neural stem cells / Neural Stem Cells - cytology / Neurogenesis / Neuroglia - cytology / Neuronal-glial interactions / Neurons / Neurons - cytology / Neurophysiology / Neurosciences / Pharmacology / Pregnancy / Printed circuit boards / Progenitor cells / Rodents / Spectrum analysis / Stem cell transplantation / Stem cells / Surface markers / Transplants & implants
2011

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Mohammed Bin Rashid Library /
Catalogue /
Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential
Journal Article

Biophysical Characteristics Reveal Neural Stem Cell Differentiation Potential

Hoettges, Kai F.,
Hughes, Michael P.,
Mulhall, Hayley J.,
Marchenko, Steve A.,
Flanagan, Lisa A.,
Lee, Abraham P.,
Estrada, Laura C.,
Lu, Jente,
Labeed, Fatima H.
2011
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Overview
Distinguishing human neural stem/progenitor cell (huNSPC) populations that will predominantly generate neurons from those that produce glia is currently hampered by a lack of sufficient cell type-specific surface markers predictive of fate potential. This limits investigation of lineage-biased progenitors and their potential use as therapeutic agents. A live-cell biophysical and label-free measure of fate potential would solve this problem by obviating the need for specific cell surface markers. We used dielectrophoresis (DEP) to analyze the biophysical, specifically electrophysiological, properties of cortical human and mouse NSPCs that vary in differentiation potential. Our data demonstrate that the electrophysiological property membrane capacitance inversely correlates with the neurogenic potential of NSPCs. Furthermore, as huNSPCs are continually passaged they decrease neuron generation and increase membrane capacitance, confirming that this parameter dynamically predicts and negatively correlates with neurogenic potential. In contrast, differences in membrane conductance between NSPCs do not consistently correlate with the ability of the cells to generate neurons. DEP crossover frequency, which is a quantitative measure of cell behavior in DEP, directly correlates with neuron generation of NSPCs, indicating a potential mechanism to separate stem cells biased to particular differentiated cell fates. We show here that whole cell membrane capacitance, but not membrane conductance, reflects and predicts the neurogenic potential of human and mouse NSPCs. Stem cell biophysical characteristics therefore provide a completely novel and quantitative measure of stem cell fate potential and a label-free means to identify neuron- or glial-biased progenitors.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Analysis

/ Animals

/ Apoptosis

/ Biology

/ Biomarkers

/ Biomedical engineering

/ Brain research

/ Capacitance

/ Cell Differentiation

/ Cell fate

/ Cell Membrane - metabolism

/ Cell Separation

/ Cell surface

/ Chemical compounds

/ Cortex

/ Dielectric properties

/ Dielectrophoresis

/ Differentiation (biology)

/ Electric Capacitance

/ Electrophoresis

/ Electrophysiological Phenomena

/ Engineering

/ Female

/ Glial stem cells

/ Health aspects

/ Humans

/ Laboratories

/ Medical research

/ Membrane capacitance

/ Membrane conductance

/ Membranes

/ Mice

/ Microscopy

/ Neural stem cells

/ Neural Stem Cells - cytology

/ Neurogenesis

/ Neuroglia - cytology

/ Neuronal-glial interactions

/ Neurons

/ Neurons - cytology

/ Neurophysiology

/ Neurosciences

/ Pharmacology

/ Pregnancy

/ Printed circuit boards

/ Progenitor cells

/ Rodents

/ Spectrum analysis

/ Stem cell transplantation

/ Stem cells

/ Surface markers

/ Transplants & implants

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