Hypergravity Load-induced Hyperglycemia Occurs Due to Hypothermia and Increased Plasma Corticosterone Level in Mice

Overview

Journal J Physiol Sci

Specialty Physiology

Date 2022 Aug 1

PMID 35915429

Authors

Chikara Abe

Chikako Katayama

Kazuhiro Horii

Bakushi Ogawa

Kento Ohbayashi

Yusaku Iwasaki

Fumiaki Nin

Hironobu Morita

Affiliations

Soon will be listed here.

Abstract

Hypothermia has been observed during hypergravity load in mice and rats. This response is beneficial for maintaining blood glucose level, although food intake decreases. However, saving glucose is not enough to maintain blood glucose level during hypergravity load. In this study, we examined the contribution of humoral factors related to glycolysis in maintaining blood glucose level in a 2 G environment. Increased plasma corticosterone levels were observed in mice with intact peripheral vestibular organs, but not in mice with vestibular lesions. Plasma glucagon levels did not change, and decrease in plasma adrenaline levels was observed in mice with intact peripheral vestibular organs. Accordingly, it is possible that increase in plasma corticosterone level and hypothermia contribute to prevent hypoglycemia in a 2 G environment.

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