Aging-related defects in macrophage function are driven by MYC and USF1 transcriptional programs

Charlotte E. Moss; Simon A. Johnston; Joshua V. Kimble; Martha Clements; Veryan Codd; Stephen Hamby; Alison H. Goodall; Sumeet Deshmukh; Ian Sudbery; Daniel Coca; Heather L. Wilson; Endre Kiss-Toth

Cell Reports (Apr 2024)

Aging-related defects in macrophage function are driven by MYC and USF1 transcriptional programs

Charlotte E. Moss,
Simon A. Johnston,
Joshua V. Kimble,
Martha Clements,
Veryan Codd,
Stephen Hamby,
Alison H. Goodall,
Sumeet Deshmukh,
Ian Sudbery,
Daniel Coca,
Heather L. Wilson,
Endre Kiss-Toth

Affiliations

Charlotte E. Moss: Division of Clinical Medicine, School of Medicine and Population Health, University of Sheffield, Sheffield, UK; Healthy Lifespan Institute, University of Sheffield, Sheffield, UK
Simon A. Johnston: Division of Clinical Medicine, School of Medicine and Population Health, University of Sheffield, Sheffield, UK
Joshua V. Kimble: Division of Clinical Medicine, School of Medicine and Population Health, University of Sheffield, Sheffield, UK; Healthy Lifespan Institute, University of Sheffield, Sheffield, UK
Martha Clements: Division of Clinical Medicine, School of Medicine and Population Health, University of Sheffield, Sheffield, UK
Veryan Codd: Department of Cardiovascular Sciences, University of Leicester, Leicester, UK; National Institute for Healthcare Research, Leicester Biomedical Research Centre, Glenfield Hospital, Leicester, UK
Stephen Hamby: Department of Cardiovascular Sciences, University of Leicester, Leicester, UK; National Institute for Healthcare Research, Leicester Biomedical Research Centre, Glenfield Hospital, Leicester, UK
Alison H. Goodall: Department of Cardiovascular Sciences, University of Leicester, Leicester, UK; National Institute for Healthcare Research, Leicester Biomedical Research Centre, Glenfield Hospital, Leicester, UK
Sumeet Deshmukh: School of Biosciences, University of Sheffield, Sheffield, UK
Ian Sudbery: School of Biosciences, University of Sheffield, Sheffield, UK
Daniel Coca: Healthy Lifespan Institute, University of Sheffield, Sheffield, UK; Department of Autonomic Control and Systems Engineering, University of Sheffield, Sheffield, UK
Heather L. Wilson: Division of Clinical Medicine, School of Medicine and Population Health, University of Sheffield, Sheffield, UK; Healthy Lifespan Institute, University of Sheffield, Sheffield, UK; Corresponding author
Endre Kiss-Toth: Division of Clinical Medicine, School of Medicine and Population Health, University of Sheffield, Sheffield, UK; Healthy Lifespan Institute, University of Sheffield, Sheffield, UK; Biological Research Centre, Szeged, Hungary; Corresponding author

Journal volume & issue: Vol. 43, no. 4
p. 114073

Abstract

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Summary: Macrophages are central innate immune cells whose function declines with age. The molecular mechanisms underlying age-related changes remain poorly understood, particularly in human macrophages. We report a substantial reduction in phagocytosis, migration, and chemotaxis in human monocyte-derived macrophages (MDMs) from older (>50 years old) compared with younger (18–30 years old) donors, alongside downregulation of transcription factors MYC and USF1. In MDMs from young donors, knockdown of MYC or USF1 decreases phagocytosis and chemotaxis and alters the expression of associated genes, alongside adhesion and extracellular matrix remodeling. A concordant dysregulation of MYC and USF1 target genes is also seen in MDMs from older donors. Furthermore, older age and loss of either MYC or USF1 in MDMs leads to an increased cell size, altered morphology, and reduced actin content. Together, these results define MYC and USF1 as key drivers of MDM age-related functional decline and identify downstream targets to improve macrophage function in aging.

CP: Immunology

Published in Cell Reports

ISSN: 2211-1247 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Biology (General)
Website: http://www.cell.com/cell-reports/home

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