Oxytocin, Epigenetic Aging, and the Social Regulation of Health: A Lifecourse Perspective on the Maejima et al. Findings

Kerstin Uvnas-Moberg; Mechthild M. Gross; Jean Calleja-Agius; Jonathan D. Turner

doi:10.1111/acel.70363

Oxytocin, Epigenetic Aging, and the Social Regulation of Health: A Lifecourse Perspective on the Maejima et al. Findings

Kerstin Uvnas-Moberg
, Mechthild M. Gross
, Jean Calleja-Agius
, Jonathan D. Turner

Publication: Contribution to journal › Journal article › peer-review

Abstract

The elegant work by Maejima et al. recently published in Aging Cell reveals a previously unrecognized mechanism linking age-related oxytocin (OXT) decline to epigenetic remodeling, mitochondrial dysfunction, and systemic inflammation (Maejima et al. 2025). Beyond documenting this relationship, the authors demonstrate its remarkable reversibility through nasal OXT administration. These findings provide the first molecular evidence supporting what has long been proposed: that the OXT system functions as a fundamental long-term regulator of health across the entire lifespan, from early development through aging (Moberg 2024, 2003; Uvnas-Moberg 1998). The current work now gives a tantalizing glimpse into the epigenetic mechanism behind this life course regulation.

Original language	English
Article number	e70363
Number of pages	5
Journal	Aging Cell
Volume	25
Issue number	2
DOIs	https://doi.org/10.1111/acel.70363
Publication status	Published - 2026

Keywords

DNA methylation
HPA axis
TET enzymes
early life programming
epigenetic aging
lifecourse epidemiology
noradrenergic/sympathetic nervous system
oxytocin
personalized epigenetic medicine
social connection

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title = "Oxytocin, Epigenetic Aging, and the Social Regulation of Health: A Lifecourse Perspective on the Maejima et al. Findings",

abstract = "The elegant work by Maejima et al. recently published in Aging Cell reveals a previously unrecognized mechanism linking age-related oxytocin (OXT) decline to epigenetic remodeling, mitochondrial dysfunction, and systemic inflammation (Maejima et al. 2025). Beyond documenting this relationship, the authors demonstrate its remarkable reversibility through nasal OXT administration. These findings provide the first molecular evidence supporting what has long been proposed: that the OXT system functions as a fundamental long-term regulator of health across the entire lifespan, from early development through aging (Moberg 2024, 2003; Uvnas-Moberg 1998). The current work now gives a tantalizing glimpse into the epigenetic mechanism behind this life course regulation.",

keywords = "DNA methylation, HPA axis, TET enzymes, early life programming, epigenetic aging, lifecourse epidemiology, noradrenergic/sympathetic nervous system, oxytocin, personalized epigenetic medicine, social connection, DNA methylation, HPA axis, TET enzymes, early life programming, epigenetic aging, lifecourse epidemiology, noradrenergic/sympathetic nervous system, oxytocin, personalized epigenetic medicine, social connection",

author = "Kerstin Uvnas-Moberg and Gross, \{Mechthild M.\} and Jean Calleja-Agius and Turner, \{Jonathan D.\}",

year = "2026",

doi = "10.1111/acel.70363",

language = "English",

volume = "25",

journal = "Aging Cell",

issn = "1474-9718",

publisher = "Wiley-Blackwell Publishing Ltd",

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T1 - Oxytocin, Epigenetic Aging, and the Social Regulation of Health: A Lifecourse Perspective on the Maejima et al. Findings

AU - Uvnas-Moberg, Kerstin

AU - Gross, Mechthild M.

AU - Calleja-Agius, Jean

AU - Turner, Jonathan D.

PY - 2026

Y1 - 2026

N2 - The elegant work by Maejima et al. recently published in Aging Cell reveals a previously unrecognized mechanism linking age-related oxytocin (OXT) decline to epigenetic remodeling, mitochondrial dysfunction, and systemic inflammation (Maejima et al. 2025). Beyond documenting this relationship, the authors demonstrate its remarkable reversibility through nasal OXT administration. These findings provide the first molecular evidence supporting what has long been proposed: that the OXT system functions as a fundamental long-term regulator of health across the entire lifespan, from early development through aging (Moberg 2024, 2003; Uvnas-Moberg 1998). The current work now gives a tantalizing glimpse into the epigenetic mechanism behind this life course regulation.

AB - The elegant work by Maejima et al. recently published in Aging Cell reveals a previously unrecognized mechanism linking age-related oxytocin (OXT) decline to epigenetic remodeling, mitochondrial dysfunction, and systemic inflammation (Maejima et al. 2025). Beyond documenting this relationship, the authors demonstrate its remarkable reversibility through nasal OXT administration. These findings provide the first molecular evidence supporting what has long been proposed: that the OXT system functions as a fundamental long-term regulator of health across the entire lifespan, from early development through aging (Moberg 2024, 2003; Uvnas-Moberg 1998). The current work now gives a tantalizing glimpse into the epigenetic mechanism behind this life course regulation.

KW - DNA methylation

KW - HPA axis

KW - TET enzymes

KW - early life programming

KW - epigenetic aging

KW - lifecourse epidemiology

KW - noradrenergic/sympathetic nervous system

KW - oxytocin

KW - personalized epigenetic medicine

KW - social connection

KW - DNA methylation

KW - HPA axis

KW - TET enzymes

KW - early life programming

KW - epigenetic aging

KW - lifecourse epidemiology

KW - noradrenergic/sympathetic nervous system

KW - oxytocin

KW - personalized epigenetic medicine

KW - social connection

UR - https://res.slu.se/id/publ/146414

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DO - 10.1111/acel.70363

M3 - Journal article

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SN - 1474-9718

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ER -

Oxytocin, Epigenetic Aging, and the Social Regulation of Health: A Lifecourse Perspective on the Maejima et al. Findings

Abstract

Keywords

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