Nrf2 Contributes to the Weight Gain of Mice During Space Travel

Overview

Journal Commun Biol

Specialty Biology

Date 2020 Sep 9

PMID 32901092

Citations 22

Authors

Takafumi Suzuki

Akira Uruno

Akane Yumoto

Keiko Taguchi

Mikiko Suzuki

Nobuhiko Harada

Rie Ryoke

Eriko Naganuma

Nanae Osanai

Aya Goto

Hiromi Suda

Ryan Browne

Akihito Otsuki

Fumiki Katsuoka

Michael Zorzi

Takahiro Yamazaki

Daisuke Saigusa

Seizo Koshiba

Takashi Nakamura

Satoshi Fukumoto

Hironobu Ikehata

Keizo Nishikawa

Norio Suzuki

Ikuo Hirano

Ritsuko Shimizu

Tetsuya Oishi

Hozumi Motohashi

Hirona Tsubouchi

Risa Okada

Takashi Kudo

Michihiko Shimomura

Thomas W Kensler

Hiroyasu Mizuno

Masaki Shirakawa

Satoru Takahashi

Dai Shiba

Masayuki Yamamoto

Affiliations

Soon will be listed here.

Abstract

Space flight produces an extreme environment with unique stressors, but little is known about how our body responds to these stresses. While there are many intractable limitations for in-flight space research, some can be overcome by utilizing gene knockout-disease model mice. Here, we report how deletion of Nrf2, a master regulator of stress defense pathways, affects the health of mice transported for a stay in the International Space Station (ISS). After 31 days in the ISS, all flight mice returned safely to Earth. Transcriptome and metabolome analyses revealed that the stresses of space travel evoked ageing-like changes of plasma metabolites and activated the Nrf2 signaling pathway. Especially, Nrf2 was found to be important for maintaining homeostasis of white adipose tissues. This study opens approaches for future space research utilizing murine gene knockout-disease models, and provides insights into mitigating space-induced stresses that limit the further exploration of space by humans.

Citing Articles

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Zhang D Nat Rev Drug Discov. 2025; .

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Rojo A, Buttari B, Cadenas S, Carlos A, Cuadrado A, Falcao A Redox Biol. 2024; 79():103464.

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Microgravity's effects on miRNA-mRNA regulatory networks in a mouse model of segmental bone defects.

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Spaceflight alters host-gut microbiota interactions.

Gonzalez E, Lee M, Tierney B, Lipieta N, Flores P, Mishra M NPJ Biofilms Microbiomes. 2024; 10(1):71.

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