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. 2024 Nov;635(8037):168-177.
doi: 10.1038/s41586-024-08100-w. Epub 2024 Oct 30.

Myocardial infarction augments sleep to limit cardiac inflammation and damage

Pacific Huynh #  1   2   3   4   5 Jan D Hoffmann #  1   2   3   4   5   6 Teresa Gerhardt  1   2   3   4   5   7 Máté G Kiss  1   2   3   4   5 Faris M Zuraikat  8   9 Oren Cohen  1   2   10 Christopher Wolfram  7 Abi G Yates  1   2   3   4   5 Alexander Leunig  1   2   3   4   5 Merlin Heiser  1   2   3   4   5 Lena Gaebel  1   2   3   4   5 Matteo Gianeselli  1   2   3   4   5 Sukanya Goswami  1   2   3   4   5 Annie Khamhoung  1   2   3   4   5 Jeffrey Downey  1   2   3   4   5 Seonghun Yoon  1   2 Zhihong Chen  11 Vladimir Roudko  11 Travis Dawson  11 Joana Ferreira da Silva  12   13 Natalie J Ameral  13 Jarod Morgenroth-Rebin  12 Darwin D'Souza  11 Laura L Koekkoek  1   2   3   4   5 Walter Jacob  1   2   3   4   5 Jazz Munitz  1   14   15 Donghoon Lee  3   4   16   17   18   19 John F Fullard  3   4   16   17   18   19 Mandy M T van Leent  1   2   14   15 Panos Roussos  3   4   16   17   18   19 Seunghee Kim-Schulze  11 Neomi Shah  10 Benjamin P Kleinstiver  12   13 Filip K Swirski  1   2   5   14 David Leistner  7   20 Marie-Pierre St-Onge  8   9 Cameron S McAlpine  21   22   23   24   25
Affiliations

Myocardial infarction augments sleep to limit cardiac inflammation and damage

Pacific Huynh et al. Nature. 2024 Nov.

Abstract

Sleep is integral to cardiovascular health1,2. Yet, the circuits that connect cardiovascular pathology and sleep are incompletely understood. It remains unclear whether cardiac injury influences sleep and whether sleep-mediated neural outputs contribute to heart healing and inflammation. Here we report that in humans and mice, monocytes are actively recruited to the brain after myocardial infarction (MI) to augment sleep, which suppresses sympathetic outflow to the heart, limiting inflammation and promoting healing. After MI, microglia rapidly recruit circulating monocytes to the brain's thalamic lateral posterior nucleus (LPN) via the choroid plexus, where they are reprogrammed to generate tumour necrosis factor (TNF). In the thalamic LPN, monocytic TNF engages Tnfrsf1a-expressing glutamatergic neurons to increase slow wave sleep pressure and abundance. Disrupting sleep after MI worsens cardiac function, decreases heart rate variability and causes spontaneous ventricular tachycardia. After MI, disrupting or curtailing sleep by manipulating glutamatergic TNF signalling in the thalamic LPN increases cardiac sympathetic input which signals through the β2-adrenergic receptor of macrophages to promote a chemotactic signature that increases monocyte influx. Poor sleep in the weeks following acute coronary syndrome increases susceptibility to secondary cardiovascular events and reduces the heart's functional recovery. In parallel, insufficient sleep in humans reprogrammes β2-adrenergic receptor-expressing monocytes towards a chemotactic phenotype, enhancing their migratory capacity. Collectively, our data uncover cardiogenic regulation of sleep after heart injury, which restricts cardiac sympathetic input, limiting inflammation and damage.

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Conflict of interest statement

Competing interests

C.S.M. is a consultant for Granite Bio. J.F.d.S. and B.P.K. are inventors on patents or patent applications filed by Mass General Brigham (MGB) that describe genome engineering technologies. B.P.K. is a consultant for EcoR1 capital and Novartis Venture Fund, and is on the scientific advisory board of Acrigen Biosciences, Life Edit Therapeutics and Prime Medicine. B.P.K. has a financial interest in Prime Medicine, a company that is developing therapeutic CRISPR–Cas technologies for gene editing. The interests of B.P.K. were reviewed and are managed by Massachusetts General Hospital (MGH) and MGB in accordance with their conflict-of-interest policies. The other authors declare no competing interests.

Comment in

References

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