Body temperature is a more important modulator of lifespan than metabolic rate in two small mammals

Zhijun Zhao; Jing Cao; Chaoqun Niu; Menghuan Bao; Jiaqi Xu; Daliang Huo; Shasha Liao; Wei Liu; John R. Speakman

doi:10.1038/s42255-022-00545-5

Body temperature is a more important modulator of lifespan than metabolic rate in two small mammals

Zhijun Zhao^*, Jing Cao, Chaoqun Niu, Menghuan Bao, Jiaqi Xu, Daliang Huo, Shasha Liao, Wei Liu, John R. Speakman^* (Corresponding Author)

^*Corresponding author for this work

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

25 Citations (Scopus)

Abstract

The relationships between metabolic rate, body temperature (T_b), body composition and ageing are complex, and not fully resolved. In particular, T_b and metabolic rate often change in parallel, making disentangling their effects difficult. Here we show that in both sexes of mice and hamsters exposure to a temperature of 32.5 °C leads to a reduced lifespan, coincident with lowered metabolic rate and elevated T_b with no change in body composition. We exploit the unique situation that when small mammals are exposed to hot ambient temperatures their T_b goes up, at the same time that their metabolic rate goes down, allowing us to experimentally separate the impacts of T_b and metabolic rate on lifespan. The impact of ambient temperature on lifespan can be reversed by exposing the animals to elevated heat loss by forced convection, which reverses the effect on T_b but does not affect metabolic rate, demonstrating the causal effect of T_b on lifespan under laboratory conditions for these models. The impact of manipulations such as calorie restriction that increase lifespan may be mediated via effects on T_b, and measuring T_b may be a useful screening tool for putative therapeutics to extend the human lifespan.

Original language	English
Pages (from-to)	320-326
Number of pages	7
Journal	Nature Metabolism
Volume	4
Issue number	3
Early online date	14 Mar 2022
DOIs	https://doi.org/10.1038/s42255-022-00545-5
Publication status	Published - Mar 2022

Bibliographical note

Funding Information:
We thank J.-X. Yu and G.-M. Deng from Wenzhou University for their assistance with animal care. This work was partly supported by grants (31670417 and 31870388 to Z.Z., and 92057206 to J.R.S.) from the National Natural Science Foundation of China and the National Key R&D Program of China (2019YFA0801900 to J.R.S.).

Data Availability Statement

All additional data supporting the findings of this study are publicly available on the open science framework (http://osf.io.e7baj; https://doi.org/10.17605/OSF.IO/4FUJ7). Source data are provided with this paper.

Keywords

ageing
metabolism

UN SDGs

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

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abstract = "The relationships between metabolic rate, body temperature (Tb), body composition and ageing are complex, and not fully resolved. In particular, Tb and metabolic rate often change in parallel, making disentangling their effects difficult. Here we show that in both sexes of mice and hamsters exposure to a temperature of 32.5 °C leads to a reduced lifespan, coincident with lowered metabolic rate and elevated Tb with no change in body composition. We exploit the unique situation that when small mammals are exposed to hot ambient temperatures their Tb goes up, at the same time that their metabolic rate goes down, allowing us to experimentally separate the impacts of Tb and metabolic rate on lifespan. The impact of ambient temperature on lifespan can be reversed by exposing the animals to elevated heat loss by forced convection, which reverses the effect on Tb but does not affect metabolic rate, demonstrating the causal effect of Tb on lifespan under laboratory conditions for these models. The impact of manipulations such as calorie restriction that increase lifespan may be mediated via effects on Tb, and measuring Tb may be a useful screening tool for putative therapeutics to extend the human lifespan.",

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author = "Zhijun Zhao and Jing Cao and Chaoqun Niu and Menghuan Bao and Jiaqi Xu and Daliang Huo and Shasha Liao and Wei Liu and Speakman, {John R.}",

note = "Funding Information: We thank J.-X. Yu and G.-M. Deng from Wenzhou University for their assistance with animal care. This work was partly supported by grants (31670417 and 31870388 to Z.Z., and 92057206 to J.R.S.) from the National Natural Science Foundation of China and the National Key R&D Program of China (2019YFA0801900 to J.R.S.). ",

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AU - Zhao, Zhijun

AU - Cao, Jing

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AU - Bao, Menghuan

AU - Xu, Jiaqi

AU - Huo, Daliang

AU - Liao, Shasha

AU - Liu, Wei

AU - Speakman, John R.

N1 - Funding Information: We thank J.-X. Yu and G.-M. Deng from Wenzhou University for their assistance with animal care. This work was partly supported by grants (31670417 and 31870388 to Z.Z., and 92057206 to J.R.S.) from the National Natural Science Foundation of China and the National Key R&D Program of China (2019YFA0801900 to J.R.S.).

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N2 - The relationships between metabolic rate, body temperature (Tb), body composition and ageing are complex, and not fully resolved. In particular, Tb and metabolic rate often change in parallel, making disentangling their effects difficult. Here we show that in both sexes of mice and hamsters exposure to a temperature of 32.5 °C leads to a reduced lifespan, coincident with lowered metabolic rate and elevated Tb with no change in body composition. We exploit the unique situation that when small mammals are exposed to hot ambient temperatures their Tb goes up, at the same time that their metabolic rate goes down, allowing us to experimentally separate the impacts of Tb and metabolic rate on lifespan. The impact of ambient temperature on lifespan can be reversed by exposing the animals to elevated heat loss by forced convection, which reverses the effect on Tb but does not affect metabolic rate, demonstrating the causal effect of Tb on lifespan under laboratory conditions for these models. The impact of manipulations such as calorie restriction that increase lifespan may be mediated via effects on Tb, and measuring Tb may be a useful screening tool for putative therapeutics to extend the human lifespan.

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Body temperature is a more important modulator of lifespan than metabolic rate in two small mammals

Abstract

Bibliographical note

Data Availability Statement

Keywords

UN SDGs

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