Biophysical and biomolecular determination of cellular age in humans

Ageing research has focused either on assessing organ- and tissue-based changes, such as lung capacity and cardiac function, or on changes at the molecular scale such as gene expression, epigenetic modifications and metabolism. Here, by using a cohort of 32 samples of primary dermal fibroblasts coll...

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Veröffentlicht in:	Nature biomedical engineering 2017-07, Vol.1 (7), Article 0093
Hauptverfasser:	Phillip, Jude M., Wu, Pei-Hsun, Gilkes, Daniele M., Williams, Wadsworth, McGovern, Shaun, Daya, Jena, Chen, Jonathan, Aifuwa, Ivie, Lee, Jerry S. H., Fan, Rong, Walston, Jeremy, Wirtz, Denis
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Sprache:	eng
Schlagworte:	631/80 639/166/985 Accuracy Age Aging Biomarkers Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Chronology Cytology Epigenetics Fibroblasts Gene expression Heterogeneity Morphology Phenotypes Progeria Werner's syndrome
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creator	Phillip, Jude M. Wu, Pei-Hsun Gilkes, Daniele M. Williams, Wadsworth McGovern, Shaun Daya, Jena Chen, Jonathan Aifuwa, Ivie Lee, Jerry S. H. Fan, Rong Walston, Jeremy Wirtz, Denis
description	Ageing research has focused either on assessing organ- and tissue-based changes, such as lung capacity and cardiac function, or on changes at the molecular scale such as gene expression, epigenetic modifications and metabolism. Here, by using a cohort of 32 samples of primary dermal fibroblasts collected from individuals between 2 and 96 years of age, we show that the degradation of functional cellular biophysical features—including cell mechanics, traction strength, morphology and migratory potential—and associated descriptors of cellular heterogeneity predict cellular age with higher accuracy than conventional biomolecular markers. We also demonstrate the use of high-throughput single-cell technologies, together with a deterministic model based on cellular features, to compute the cellular age of apparently healthy males and females, and to explore these relationships in cells from individuals with Werner syndrome and Hutchinson–Gilford progeria syndrome, two rare genetic conditions that result in phenotypes that show aspects of premature ageing. Our findings suggest that the quantification of cellular age may be used to stratify individuals on the basis of cellular phenotypes and serve as a biological proxy of healthspan. The biophysical properties of cells can be used to predict the cellular age of humans with higher accuracy than conventional biomolecular markers.
doi_str_mv	10.1038/s41551-017-0093
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We also demonstrate the use of high-throughput single-cell technologies, together with a deterministic model based on cellular features, to compute the cellular age of apparently healthy males and females, and to explore these relationships in cells from individuals with Werner syndrome and Hutchinson–Gilford progeria syndrome, two rare genetic conditions that result in phenotypes that show aspects of premature ageing. Our findings suggest that the quantification of cellular age may be used to stratify individuals on the basis of cellular phenotypes and serve as a biological proxy of healthspan. 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Our findings suggest that the quantification of cellular age may be used to stratify individuals on the basis of cellular phenotypes and serve as a biological proxy of healthspan. The biophysical properties of cells can be used to predict the cellular age of humans with higher accuracy than conventional biomolecular markers.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>31372309</pmid><doi>10.1038/s41551-017-0093</doi><oa>free_for_read</oa></addata></record>
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subjects	631/80 639/166/985 Accuracy Age Aging Biomarkers Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Chronology Cytology Epigenetics Fibroblasts Gene expression Heterogeneity Morphology Phenotypes Progeria Werner's syndrome
title	Biophysical and biomolecular determination of cellular age in humans
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