Unsaturated fat alters clock phosphorylation to align rhythms to the season in mice

Daniel C Levine; Rasmus H Reeh; Thomas McMahon; Thomas Mandrup-Poulsen; Ying-Hui Fu; Louis J Ptáček

doi:10.1126/science.adp3065

Unsaturated fat alters clock phosphorylation to align rhythms to the season in mice

Daniel C Levine, Rasmus H Reeh, Thomas McMahon, Thomas Mandrup-Poulsen, Ying-Hui Fu^*, Louis J Ptáček^*

^*Corresponding author af dette arbejde

Inflammation, Metabolism and Oxidation

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

The circadian clock maintains synchrony between biological processes and light/dark cycles by integrating environmental cues. How the clock adapts to seasonal variations in the environment is incompletely understood. We found that a high-fat diet increased phosphorylation of the clock protein PERIOD2 (PER2) on serine 662 (S662), which was necessary and sufficient for regulating phase shifting of daily locomotor activity to entrain to seasonal light cycles. PER2-S662 phosphorylation correlated with genome-wide expression pathways that regulate polyunsaturated fatty acid (PUFA) conversion into oxylipins in the hypothalamus. Partial hydrogenation of dietary PUFAs increased hypothalamic PER2-S662 phosphorylation and entrainment to a summer photoperiod in control mice, but not in mice for which PER2-S662 could not be phosphorylated. PER2-S662 phosphorylation is influenced by, and alters the regulation of, unsaturated fat to control circadian phase shifting across the seasons.

Originalsprog	Engelsk
Artikelnummer	eadp3065
Tidsskrift	Science
Vol/bind	390
Udgave nummer	6771
Antal sider	8
ISSN	0036-8075
DOI	https://doi.org/10.1126/science.adp3065
Status	Udgivet - 23 okt. 2025

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Citationsformater

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title = "Unsaturated fat alters clock phosphorylation to align rhythms to the season in mice",

abstract = "The circadian clock maintains synchrony between biological processes and light/dark cycles by integrating environmental cues. How the clock adapts to seasonal variations in the environment is incompletely understood. We found that a high-fat diet increased phosphorylation of the clock protein PERIOD2 (PER2) on serine 662 (S662), which was necessary and sufficient for regulating phase shifting of daily locomotor activity to entrain to seasonal light cycles. PER2-S662 phosphorylation correlated with genome-wide expression pathways that regulate polyunsaturated fatty acid (PUFA) conversion into oxylipins in the hypothalamus. Partial hydrogenation of dietary PUFAs increased hypothalamic PER2-S662 phosphorylation and entrainment to a summer photoperiod in control mice, but not in mice for which PER2-S662 could not be phosphorylated. PER2-S662 phosphorylation is influenced by, and alters the regulation of, unsaturated fat to control circadian phase shifting across the seasons.",

keywords = "Animals, Phosphorylation, Mice, Seasons, Period Circadian Proteins/metabolism, Circadian Rhythm/physiology, Hypothalamus/metabolism, Photoperiod, Male, Diet, High-Fat, Mice, Inbred C57BL, Fatty Acids, Unsaturated/metabolism, Circadian Clocks/physiology, Serine/metabolism",

author = "Levine, {Daniel C} and Reeh, {Rasmus H} and Thomas McMahon and Thomas Mandrup-Poulsen and Ying-Hui Fu and Pt{\'a}{\v c}ek, {Louis J}",

year = "2025",

month = oct,

day = "23",

doi = "10.1126/science.adp3065",

language = "English",

volume = "390",

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TY - JOUR

T1 - Unsaturated fat alters clock phosphorylation to align rhythms to the season in mice

AU - Levine, Daniel C

AU - Reeh, Rasmus H

AU - McMahon, Thomas

AU - Mandrup-Poulsen, Thomas

AU - Fu, Ying-Hui

AU - Ptáček, Louis J

PY - 2025/10/23

Y1 - 2025/10/23

N2 - The circadian clock maintains synchrony between biological processes and light/dark cycles by integrating environmental cues. How the clock adapts to seasonal variations in the environment is incompletely understood. We found that a high-fat diet increased phosphorylation of the clock protein PERIOD2 (PER2) on serine 662 (S662), which was necessary and sufficient for regulating phase shifting of daily locomotor activity to entrain to seasonal light cycles. PER2-S662 phosphorylation correlated with genome-wide expression pathways that regulate polyunsaturated fatty acid (PUFA) conversion into oxylipins in the hypothalamus. Partial hydrogenation of dietary PUFAs increased hypothalamic PER2-S662 phosphorylation and entrainment to a summer photoperiod in control mice, but not in mice for which PER2-S662 could not be phosphorylated. PER2-S662 phosphorylation is influenced by, and alters the regulation of, unsaturated fat to control circadian phase shifting across the seasons.

AB - The circadian clock maintains synchrony between biological processes and light/dark cycles by integrating environmental cues. How the clock adapts to seasonal variations in the environment is incompletely understood. We found that a high-fat diet increased phosphorylation of the clock protein PERIOD2 (PER2) on serine 662 (S662), which was necessary and sufficient for regulating phase shifting of daily locomotor activity to entrain to seasonal light cycles. PER2-S662 phosphorylation correlated with genome-wide expression pathways that regulate polyunsaturated fatty acid (PUFA) conversion into oxylipins in the hypothalamus. Partial hydrogenation of dietary PUFAs increased hypothalamic PER2-S662 phosphorylation and entrainment to a summer photoperiod in control mice, but not in mice for which PER2-S662 could not be phosphorylated. PER2-S662 phosphorylation is influenced by, and alters the regulation of, unsaturated fat to control circadian phase shifting across the seasons.

KW - Animals

KW - Phosphorylation

KW - Mice

KW - Seasons

KW - Period Circadian Proteins/metabolism

KW - Circadian Rhythm/physiology

KW - Hypothalamus/metabolism

KW - Photoperiod

KW - Male

KW - Diet, High-Fat

KW - Mice, Inbred C57BL

KW - Fatty Acids, Unsaturated/metabolism

KW - Circadian Clocks/physiology

KW - Serine/metabolism

U2 - 10.1126/science.adp3065

DO - 10.1126/science.adp3065

M3 - Journal article

C2 - 41129636

SN - 0036-8075

VL - 390

JO - Science

JF - Science

IS - 6771

M1 - eadp3065

ER -