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Multimorbidity is associated with myocardial DNA damage, nucleolar stress, dysregulated energy metabolism, and senescence in cardiovascular disease

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posted on 2025-01-10, 15:50 authored by Kristina Tomkova, Marius-Andrei RomanMarius-Andrei Roman, Adewale S Adebayo, Sophia Sheikh, Syabira Yusoff, Melanie Gulston, Lathishia Joel-David, Florence Y Lai, Antonio Murgia, Bryony Eagle-Hemming, Hardeep AujlaHardeep Aujla, Tom Chad, Gavin D Richardson, Julian L Griffin, Gavin MurphyGavin Murphy, Marcin J Woźniak

This study investigates why individuals with multimorbidity—two or more chronic conditions—are more prone to adverse outcomes after surgery. In our cohort, ninety-eight of 144 participants had multimorbidity. The myocardial transcriptome and metabolites involved in energy production were measured in 53 and 57 sequential participants, respectively. Untargeted analysis of the metabolome in blood and myocardium was performed in 30 sequential participants. Mitochondrial respiration in circulating mononuclear cells was measured in 70 participants. Results highlighted four main biological processes associated with multimorbidity: DNA damage with epigenetic changes, mitochondrial energy disruption, cellular aging (senescence) and innate immune response. Histone 2B, its ubiquitination enzymes and AKT3 were upregulated in the multimorbid group. Plasma senescence-associated proteins (IL-1β, GM-CSF) increased with more comorbidities. DNA damage and nucleolar instability were specifically apparent in multimorbid myocardium. We conclude that multimorbidity in cardiovascular patients accelerates biological aging, making them more vulnerable to metabolic stress.

Funding

Van Geest Foundation

NIHR Leicester Biomedical Research Centre

National Institute for Health Research

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Towards the prevention of post cardiac surgery organ failure

British Heart Foundation

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The BHF Chair of Cardiac Surgery

British Heart Foundation

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British Heart Foundation (AA18/3/34220)

University of Leicester

History

Author affiliation

College of Life Sciences Cardiovascular Sciences

Version

  • VoR (Version of Record)

Published in

npj Aging

Volume

10

Issue

1

Pagination

58

Publisher

Springer Science and Business Media LLC

issn

2731-6068

eissn

2731-6068

Copyright date

2024

Available date

2025-01-10

Spatial coverage

England

Language

en

Deposited by

Mr Marius Roman

Deposit date

2024-12-06

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