Identification of circadian clock modulators from existing drugs

T Katherine Tamai; Yusuke Nakane; Wataru Ota; Akane Kobayashi; Masateru Ishiguro; Naoya Kadofusa; Keisuke Ikegami; Kazuhiro Yagita; Yasufumi Shigeyoshi; Masaki Sudo; Taeko Nishiwaki‐Ohkawa; Ayato Sato; Takashi Yoshimura

doi:10.15252/emmm.201708724

EMBO Molecular Medicine (May 2018)

Identification of circadian clock modulators from existing drugs

T Katherine Tamai,
Yusuke Nakane,
Wataru Ota,
Akane Kobayashi,
Masateru Ishiguro,
Naoya Kadofusa,
Keisuke Ikegami,
Kazuhiro Yagita,
Yasufumi Shigeyoshi,
Masaki Sudo,
Taeko Nishiwaki‐Ohkawa,
Ayato Sato,
Takashi Yoshimura

Affiliations

T Katherine Tamai: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Yusuke Nakane: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Wataru Ota: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Akane Kobayashi: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Masateru Ishiguro: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Naoya Kadofusa: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Keisuke Ikegami: Department of Anatomy and Neurobiology Kindai University Faculty of Medicine Osaka Japan
Kazuhiro Yagita: Department of Physiology and Systems Bioscience Kyoto Prefectural University of Medicine Kyoto Japan
Yasufumi Shigeyoshi: Department of Anatomy and Neurobiology Kindai University Faculty of Medicine Osaka Japan
Masaki Sudo: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Taeko Nishiwaki‐Ohkawa: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Ayato Sato: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan
Takashi Yoshimura: Institute of Transformative Bio‐Molecules (WPI‐ITbM) Nagoya University Nagoya Japan

DOI: https://doi.org/10.15252/emmm.201708724
Journal volume & issue: Vol. 10, no. 5
pp. n/a – n/a

Abstract

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Abstract Chronic circadian disruption due to shift work or frequent travel across time zones leads to jet‐lag and an increased risk of diabetes, cardiovascular disease, and cancer. The development of new pharmaceuticals to treat circadian disorders, however, is costly and hugely time‐consuming. We therefore performed a high‐throughput chemical screen of existing drugs for circadian clock modulators in human U2OS cells, with the aim of repurposing known bioactive compounds. Approximately 5% of the drugs screened altered circadian period, including the period‐shortening compound dehydroepiandrosterone (DHEA; also known as prasterone). DHEA is one of the most abundant circulating steroid hormones in humans and is available as a dietary supplement in the USA. Dietary administration of DHEA to mice shortened free‐running circadian period and accelerated re‐entrainment to advanced light–dark (LD) cycles, thereby reducing jet‐lag. Our drug screen also revealed the involvement of tyrosine kinases, ABL1 and ABL2, and the BCR serine/threonine kinase in regulating circadian period. Thus, drug repurposing is a useful approach to identify new circadian clock modulators and potential therapies for circadian disorders.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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Abstract

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