[en] Jet-lag symptoms arise from temporal misalignment between the internal circadian clock and external solar time. We found that circadian rhythms of behavior (locomotor activity), clock gene expression, and body temperature immediately reentrained to phase-shifted light-dark cycles in mice lacking vasopressin receptors V1a and V1b (V1a-/-V1b-/-). Nevertheless, the behavior of V1a-/-V1b-/- mice was still coupled to the internal clock, which oscillated normally under standard conditions. Experiments with suprachiasmatic nucleus (SCN) slices in culture suggested that interneuronal communication mediated by V1a and V1b confers on the SCN an intrinsic resistance to external perturbation. Pharmacological blockade of V1a and V1b in the SCN of wild-type mice resulted in accelerated recovery from jet lag, which highlights the potential of vasopressin signaling as a therapeutic target for management of circadian rhythm misalignment, such as jet lag and shift work.
Disciplines :
Biochemistry, biophysics & molecular biology
Author, co-author :
Yamaguchi, Yoshiaki ✱; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Suzuki, Toru ✱; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Mizoro, Yasutaka ; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Kori, Hiroshi; Ochanomizu University > Department of Information Sciences
Okada, Kazuki; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Chen, Yulin; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Fustin, Jean-Michel; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Yamazaki, Fumiyoshi; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Mizuguchi, Noki; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
Zhang, Jing; Kobe University > Department of Brain Science > Division of Molecular Brain Science
Dong, Xin; Kobe University > Department of Brain Science > Division of Molecular Brain Science
Tsujimoto, Gozoh; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Genomic Drug Discovery Science
Okuno, Yasushi; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biosciences for Drug Discovery
Doi, Masao; Department of Systems Biology, Graduate School of Pharmaceutical Sciences, Kyoto University, Sakyo-ku, Kyoto 606-8501, Japan
Okamura, Hitoshi; Kyoto University > Graduate School of Pharmaceutical Sciences > Department of Systems Biology
