Chronic intermittent fasting impairs β cell maturation and function in adolescent mice

Leonardo Matta; Peter Weber; Suheda Erener; Alina Walth-Hummel; Daniela Hass; Lea K. Bühler; Katarina Klepac; Julia Szendroedi; Joel Guerra; Maria Rohm; Michael Sterr; Heiko Lickert; Alexander Bartelt; Stephan Herzig

doi:10.1016/j.celrep.2024.115225

Chronic intermittent fasting impairs β cell maturation and function in adolescent mice

Leonardo Matta, Peter Weber, Suheda Erener, Alina Walth-Hummel, Daniela Hass, Lea K. Bühler, Katarina Klepac, Julia Szendroedi, Joel Guerra, Maria Rohm, Michael Sterr, Heiko Lickert, Alexander Bartelt, Stephan Herzig

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Intermittent fasting (IF) is a nutritional lifestyle intervention with broad metabolic benefits, but whether the impact of IF depends on the individual's age is unclear. Here, we investigated the effects of IF on systemic metabolism and β cell function in old, middle-aged, and young mice. Short-term IF improves glucose homeostasis across all age groups without altering islet function and morphology. In contrast, while chronic IF is beneficial for adult mice, it results in impaired β cell function in the young. Using single-cell RNA sequencing (scRNA-seq), we delineate that the β cell maturation and function scores are reduced in young mice. In human islets, a similar pattern is observed in type 1 (T1D), but not type 2 (T2D), diabetes, suggesting that the impact of chronic IF in adolescence is linked to the development of β cell dysfunction. Our study suggests considering the duration of IF in younger persons, as it may worsen rather than reduce diabetes outcomes.

Original language	English
Article number	115225
Journal	Cell Reports
Volume	44
Issue number	2
DOIs	https://doi.org/10.1016/j.celrep.2024.115225
State	Published - 25 Feb 2025

Keywords

CP: Metabolism
Langerhans’ islets
diabetes
glucose metabolism
insulin
intermittent fasting
pancreas
weight loss
β cells

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.celrep.2024.115225

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title = "Chronic intermittent fasting impairs β cell maturation and function in adolescent mice",

abstract = "Intermittent fasting (IF) is a nutritional lifestyle intervention with broad metabolic benefits, but whether the impact of IF depends on the individual's age is unclear. Here, we investigated the effects of IF on systemic metabolism and β cell function in old, middle-aged, and young mice. Short-term IF improves glucose homeostasis across all age groups without altering islet function and morphology. In contrast, while chronic IF is beneficial for adult mice, it results in impaired β cell function in the young. Using single-cell RNA sequencing (scRNA-seq), we delineate that the β cell maturation and function scores are reduced in young mice. In human islets, a similar pattern is observed in type 1 (T1D), but not type 2 (T2D), diabetes, suggesting that the impact of chronic IF in adolescence is linked to the development of β cell dysfunction. Our study suggests considering the duration of IF in younger persons, as it may worsen rather than reduce diabetes outcomes.",

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doi = "10.1016/j.celrep.2024.115225",

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AU - Matta, Leonardo

AU - Weber, Peter

AU - Erener, Suheda

AU - Walth-Hummel, Alina

AU - Hass, Daniela

AU - Bühler, Lea K.

AU - Klepac, Katarina

AU - Szendroedi, Julia

AU - Guerra, Joel

AU - Rohm, Maria

AU - Sterr, Michael

AU - Lickert, Heiko

AU - Bartelt, Alexander

AU - Herzig, Stephan

PY - 2025/2/25

Y1 - 2025/2/25

N2 - Intermittent fasting (IF) is a nutritional lifestyle intervention with broad metabolic benefits, but whether the impact of IF depends on the individual's age is unclear. Here, we investigated the effects of IF on systemic metabolism and β cell function in old, middle-aged, and young mice. Short-term IF improves glucose homeostasis across all age groups without altering islet function and morphology. In contrast, while chronic IF is beneficial for adult mice, it results in impaired β cell function in the young. Using single-cell RNA sequencing (scRNA-seq), we delineate that the β cell maturation and function scores are reduced in young mice. In human islets, a similar pattern is observed in type 1 (T1D), but not type 2 (T2D), diabetes, suggesting that the impact of chronic IF in adolescence is linked to the development of β cell dysfunction. Our study suggests considering the duration of IF in younger persons, as it may worsen rather than reduce diabetes outcomes.

AB - Intermittent fasting (IF) is a nutritional lifestyle intervention with broad metabolic benefits, but whether the impact of IF depends on the individual's age is unclear. Here, we investigated the effects of IF on systemic metabolism and β cell function in old, middle-aged, and young mice. Short-term IF improves glucose homeostasis across all age groups without altering islet function and morphology. In contrast, while chronic IF is beneficial for adult mice, it results in impaired β cell function in the young. Using single-cell RNA sequencing (scRNA-seq), we delineate that the β cell maturation and function scores are reduced in young mice. In human islets, a similar pattern is observed in type 1 (T1D), but not type 2 (T2D), diabetes, suggesting that the impact of chronic IF in adolescence is linked to the development of β cell dysfunction. Our study suggests considering the duration of IF in younger persons, as it may worsen rather than reduce diabetes outcomes.

KW - CP: Metabolism

KW - Langerhans’ islets

KW - diabetes

KW - glucose metabolism

KW - insulin

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KW - pancreas

KW - weight loss

KW - β cells

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Chronic intermittent fasting impairs β cell maturation and function in adolescent mice

Abstract

Keywords

UN SDGs

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