Impaired Thermoregulatory Ability of Oxytocin-Deficient Mice during Cold-Exposure | Zendy

Yoshiyuki Kasahara | Zendy; Yuki Takayanagi | Zendy; Teruo Kawada | Zendy; Keiichi Itoi | Zendy; Katsuhiko Nishimori | Zendy

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Impaired Thermoregulatory Ability of Oxytocin-Deficient Mice during Cold-Exposure

Author(s) -

Yoshiyuki Kasahara,

Yuki Takayanagi,

Teruo Kawada,

Keiichi Itoi,

Katsuhiko Nishimori

Publication year - 2007

Publication title -

bioscience biotechnology and biochemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.509

H-Index - 116

eISSN - 1347-6947

pISSN - 0916-8451

DOI - 10.1271/bbb.70498

Subject(s) - oxytocin , hypothalamus , endocrinology , medicine , brown adipose tissue , energy homeostasis , biology , neuropeptide , supraoptic nucleus , white adipose tissue , thermoregulation , nucleus , adipose tissue , obesity , neuroscience , receptor

We analyzed temperature homeostasis in oxytocin-deficient (Oxt(-/-)) mice and found that Oxt(-/-) mice exhibited lower body temperatures than wild-type animals when they were exposed to cold. Oxt(-/-) mice also showed slightly more weight gain, but there were no obvious differences in the morphology of white and brown adipose tissues as between wild-type and Oxt(-/-) mice. In cold-exposed conditions, oxytocin neurons containing c-Fos immunoreactivity existed in the paraventricular nucleus of the hypothalamus. These results suggest that the central oxytocin neurons constitute part of the thermoregulatory system involved in maintaining body temperature in cold environments.

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