An optimized method for accurate quantification of cell migration using human small intestine cells

Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The “scratch” assay is the most widely used because it seems...

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Published inMetabolic engineering communications Vol. 3; pp. 76 - 83
Main Authors Nyegaard, Steffen, Christensen, Brian, Rasmussen, Jan Trige
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.12.2016
Elsevier
Subjects
Bioactive
cell death
cell movement
cell viability
chemotaxis
coatings
Collective migration
dose response
epidermal growth factor
epithelial cells
Epithelium
fluorescent dyes
humans
metastasis
Migration assay
neoplasms
osteopontin
silicone
small intestine
Small intestine cells
staining
stoppers
urine
Wound healing
Wound healing
EGF
Migration assay
Small intestine cells
Collective migration
OPN
Epithelium
ROI
Bioactive
ECM
DMEM
FHs-74 int
Caco-2
FBS
FRET
BME
(FBS), fetal bovine serum
(OPN), osteopontin
(EGF), Recombinant human epidermal growth factor
(ROI), region of interest
(FHs-74 int), non-malignant human fetal small intestine cells
(BME), Basal membrane extract
(FRET), Förster resonance energy transfer
(DMEM), Dulbecco's modified Eagle medium
(ECM), Extracellular matrix
(Caco-2), human epithelial colorectal adenocarcinoma cells
Online AccessGet full text
ISSN2214-0301
2214-0301
DOI10.1016/j.meteno.2016.03.002

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Abstract Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The “scratch” assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the “wound” might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability. •We demonstrate an accurate and cheap migration assay as alternative to “scratching”.•Provides clear distinction between migration, inflammation, proliferation and apoptosis.•Optimization for collective migration and normal morphology of small intestine cells.•The assay exhibits wide compatibility with cell types, substrates and equipment.•Cost is low, but content and accuracy high and independent of user.
AbstractList Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The "scratch" assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the "wound" might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability.Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The "scratch" assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the "wound" might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability.
Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The "scratch" assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the "wound" might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability.
Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The “scratch” assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the “wound” might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability. Keywords: Migration assay, Wound healing, Collective migration, Epithelium, Small intestine cells, Bioactive
Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The “scratch” assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the “wound” might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability. • We demonstrate an accurate and cheap migration assay as alternative to “scratching”. • Provides clear distinction between migration, inflammation, proliferation and apoptosis. • Optimization for collective migration and normal morphology of small intestine cells. • The assay exhibits wide compatibility with cell types, substrates and equipment. • Cost is low, but content and accuracy high and independent of user.
Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer metastasis. Existing migration assays all have their strengths and weaknesses. The “scratch” assay is the most widely used because it seems appealingly simple and inexpensive. However, the scratch assay has some important limitations, as the tool introducing the “wound” might injure/stress the boundary cells and/or harm underlying matrix coatings, which in both cases will affect cell migration. This described method is a Cell Exclusion Zone Assay, in which cell-free areas are created by growing cells around removable silicone stoppers. Upon appropriate staining with fluorescent dyes and microscopically visualizing the monolayers, the migration rate is then quantified by counting the cells (nuclei) intruding the void area left by the silicone insert. In the current study human small intestine epithelial cells were seeded on a physiological substrate matrix to produce collectively migrating monolayers. Different substrates were tested to determine the optimal surface for enterocyte adherence and migration and morphological changes monitored. Recombinant human epidermal growth factor and osteopontin purified from urine were tested to see if the established migration assay produces accurate and reliable migration data with human small intestine cells. The obtained data accurately confirmed that the two bioactive proteins modulate cellular migration in a dose-dependent manner. The presented assay can likely be converted for use with other adherent cell lines or substrate matrices and allows for high throughput, while cost is kept low and versatility high. Co-staining can be applied in order to assay for cell death, different cell types, cell stress and others allowing intricate analysis of migration rate of mixed populations and correction for cell viability. •We demonstrate an accurate and cheap migration assay as alternative to “scratching”.•Provides clear distinction between migration, inflammation, proliferation and apoptosis.•Optimization for collective migration and normal morphology of small intestine cells.•The assay exhibits wide compatibility with cell types, substrates and equipment.•Cost is low, but content and accuracy high and independent of user.
Author Nyegaard, Steffen
Christensen, Brian
Rasmussen, Jan Trige
AuthorAffiliation Department of Molecular Biology and Genetics – Molecular Nutrition, Aarhus University, Gustav Wieds Vej 10, DK-8000 Aarhus C, Denmark
AuthorAffiliation_xml – name: Department of Molecular Biology and Genetics – Molecular Nutrition, Aarhus University, Gustav Wieds Vej 10, DK-8000 Aarhus C, Denmark
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Keywords Wound healing
EGF
Migration assay
Small intestine cells
Collective migration
OPN
Epithelium
ROI
Bioactive
ECM
DMEM
FHs-74 int
Caco-2
FBS
FRET
BME
(FBS), fetal bovine serum
(OPN), osteopontin
(EGF), Recombinant human epidermal growth factor
(ROI), region of interest
(FHs-74 int), non-malignant human fetal small intestine cells
(BME), Basal membrane extract
(FRET), Förster resonance energy transfer
(DMEM), Dulbecco's modified Eagle medium
(ECM), Extracellular matrix
(Caco-2), human epithelial colorectal adenocarcinoma cells
Language English
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Snippet Quantifying the ability of a compound to modulate cell migration rate is a crucial part of many studies including those on chemotaxis, wound healing and cancer...
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StartPage 76
SubjectTerms Bioactive
cell death
cell movement
cell viability
chemotaxis
coatings
Collective migration
dose response
epidermal growth factor
epithelial cells
Epithelium
fluorescent dyes
humans
metastasis
Migration assay
neoplasms
osteopontin
silicone
small intestine
Small intestine cells
staining
stoppers
urine
Wound healing
Title An optimized method for accurate quantification of cell migration using human small intestine cells
URI https://dx.doi.org/10.1016/j.meteno.2016.03.002
https://www.ncbi.nlm.nih.gov/pubmed/29468115
https://www.proquest.com/docview/2000343107
https://www.proquest.com/docview/2007420681
https://pubmed.ncbi.nlm.nih.gov/PMC5779728
https://doaj.org/article/87960655506046ecbddcf9c3cfd4e0a5
Volume 3
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