It's Not Just About Speed: Single-Cell Tracking Reveals Changes in MSC Motility Associated with Replicative Senescence

Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell motility during long-term cultivation accompanied by replicative senescence (RS) for DF2 and MSCWJ-1 cell lines derived from various sources a...

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Published in:	Stem cell reviews and reports Vol. 21; no. 5; pp. 1186 - 1198
Main Authors:	Lukacheva, Anastasiya V., Bogachev, Mikhail I., Musorina, Anastasiya S., Kriger, Darya V., Poljanskaya, Galina G., Bobkov, Danila E.
Format:	Journal Article
Language:	English
Published:	New York Springer US 01.06.2025 Springer Nature B.V
Subjects:	Actin Biomedical and Life Sciences Biomedical Engineering and Bioengineering Cell Biology Cell culture Cell growth Cell Line Cell lines Cell Movement - drug effects Cell Tracking - methods Cellular biology Cellular Senescence - drug effects Cytoskeleton Enzymes Humans Life Sciences Lysophosphatidic acid Lysophospholipids - pharmacology Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - drug effects Mesenchymal Stem Cells - metabolism Morphology Motility Regenerative Medicine/Tissue Engineering Senescence Signal transduction Single-Cell Analysis - methods Statistical analysis Stem Cells Umbilical cord United States > US Germany Russia Cell motility Multivariate statistical analysis NPBNs LCFD Replicative senescence LPA Actin cytoskeleton Mesenchymal stem cells
ISSN:	2629-3269, 2629-3277, 2629-3277
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Abstract	Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell motility during long-term cultivation accompanied by replicative senescence (RS) for DF2 and MSCWJ-1 cell lines derived from various sources and donors of different age under both normal and inflammatory conditions, the latter obtained by treatment with lysophosphatidic acid (LPA). Our results indicate that RS is associated with non-stationary alterations in the average migration speed: while the median speed derived from single-cell tracking is unaffected by the senescence stage, the average speed in young cells is enhanced due to the contribution of a subpopulation of fast-moving cells. The sensitivity of cell motility metrics to the impact of LPA varied depending on their origin, with the most pronounced effects observed during the initial passages. Using multivariate statistical analysis, we have shown explicitly that the common motility metrics (average and maximum speed, distance, sinuosity of trajectories, etc.) are associated with the passage, thus clearly reflecting senescence effect. Altogether, our results indicate that cell motility exhibits complex alterations with RS, with multiple metrics besides the average speed being affected and associated with their RS stage. Graphical Abstract
AbstractList	Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell motility during long-term cultivation accompanied by replicative senescence (RS) for DF2 and MSCWJ-1 cell lines derived from various sources and donors of different age under both normal and inflammatory conditions, the latter obtained by treatment with lysophosphatidic acid (LPA). Our results indicate that RS is associated with non-stationary alterations in the average migration speed: while the median speed derived from single-cell tracking is unaffected by the senescence stage, the average speed in young cells is enhanced due to the contribution of a subpopulation of fast-moving cells. The sensitivity of cell motility metrics to the impact of LPA varied depending on their origin, with the most pronounced effects observed during the initial passages. Using multivariate statistical analysis, we have shown explicitly that the common motility metrics (average and maximum speed, distance, sinuosity of trajectories, etc.) are associated with the passage, thus clearly reflecting senescence effect. Altogether, our results indicate that cell motility exhibits complex alterations with RS, with multiple metrics besides the average speed being affected and associated with their RS stage.Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell motility during long-term cultivation accompanied by replicative senescence (RS) for DF2 and MSCWJ-1 cell lines derived from various sources and donors of different age under both normal and inflammatory conditions, the latter obtained by treatment with lysophosphatidic acid (LPA). Our results indicate that RS is associated with non-stationary alterations in the average migration speed: while the median speed derived from single-cell tracking is unaffected by the senescence stage, the average speed in young cells is enhanced due to the contribution of a subpopulation of fast-moving cells. The sensitivity of cell motility metrics to the impact of LPA varied depending on their origin, with the most pronounced effects observed during the initial passages. Using multivariate statistical analysis, we have shown explicitly that the common motility metrics (average and maximum speed, distance, sinuosity of trajectories, etc.) are associated with the passage, thus clearly reflecting senescence effect. Altogether, our results indicate that cell motility exhibits complex alterations with RS, with multiple metrics besides the average speed being affected and associated with their RS stage. Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell motility during long-term cultivation accompanied by replicative senescence (RS) for DF2 and MSCWJ-1 cell lines derived from various sources and donors of different age under both normal and inflammatory conditions, the latter obtained by treatment with lysophosphatidic acid (LPA). Our results indicate that RS is associated with non-stationary alterations in the average migration speed: while the median speed derived from single-cell tracking is unaffected by the senescence stage, the average speed in young cells is enhanced due to the contribution of a subpopulation of fast-moving cells. The sensitivity of cell motility metrics to the impact of LPA varied depending on their origin, with the most pronounced effects observed during the initial passages. Using multivariate statistical analysis, we have shown explicitly that the common motility metrics (average and maximum speed, distance, sinuosity of trajectories, etc.) are associated with the passage, thus clearly reflecting senescence effect. Altogether, our results indicate that cell motility exhibits complex alterations with RS, with multiple metrics besides the average speed being affected and associated with their RS stage. Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell motility during long-term cultivation accompanied by replicative senescence (RS) for DF2 and MSCWJ-1 cell lines derived from various sources and donors of different age under both normal and inflammatory conditions, the latter obtained by treatment with lysophosphatidic acid (LPA). Our results indicate that RS is associated with non-stationary alterations in the average migration speed: while the median speed derived from single-cell tracking is unaffected by the senescence stage, the average speed in young cells is enhanced due to the contribution of a subpopulation of fast-moving cells. The sensitivity of cell motility metrics to the impact of LPA varied depending on their origin, with the most pronounced effects observed during the initial passages. Using multivariate statistical analysis, we have shown explicitly that the common motility metrics (average and maximum speed, distance, sinuosity of trajectories, etc.) are associated with the passage, thus clearly reflecting senescence effect. Altogether, our results indicate that cell motility exhibits complex alterations with RS, with multiple metrics besides the average speed being affected and associated with their RS stage. Graphical Abstract
Author	Bobkov, Danila E. Musorina, Anastasiya S. Poljanskaya, Galina G. Lukacheva, Anastasiya V. Bogachev, Mikhail I. Kriger, Darya V.
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Snippet	Mesenchymal stem cells, cultured in 2D, are motile fibroblast-like cells with a well-developed actin cytoskeleton. In this study, we analyzed changes in cell...
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SubjectTerms	Actin Biomedical and Life Sciences Biomedical Engineering and Bioengineering Cell Biology Cell culture Cell growth Cell Line Cell lines Cell Movement - drug effects Cell Tracking - methods Cellular biology Cellular Senescence - drug effects Cytoskeleton Enzymes Humans Life Sciences Lysophosphatidic acid Lysophospholipids - pharmacology Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - drug effects Mesenchymal Stem Cells - metabolism Morphology Motility Regenerative Medicine/Tissue Engineering Senescence Signal transduction Single-Cell Analysis - methods Statistical analysis Stem Cells Umbilical cord
Title	It's Not Just About Speed: Single-Cell Tracking Reveals Changes in MSC Motility Associated with Replicative Senescence
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