A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans

A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans

Abstract Almost all organisms maintain a circadian clock from birth to death to synchronize their own physiology and behavior with the earth’s rotation. Because the in vivo evaluation of human circadian characteristics is labor-intensive, in vitro or ex vivo approaches could provide advantages. In t...

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Main Authors: Ai Yamaguchi, Ritsuko Matsumura, Takashi Matsuzaki, Wataru Nakamura, Koichi Node, Makoto Akashi
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-07268-8
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spelling doaj-5aa270178b3640fe95051c018f962e052020-12-08T02:08:16ZengNature Publishing GroupScientific Reports2045-23222017-07-017111110.1038/s41598-017-07268-8A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humansAi Yamaguchi0Ritsuko Matsumura1Takashi Matsuzaki2Wataru Nakamura3Koichi Node4Makoto Akashi5The Research Institute for Time Studies, Yamaguchi UniversityThe Research Institute for Time Studies, Yamaguchi UniversityDepartment of Biological Science, Shimane UniversityDepartment of Oral-Chrono Physiology, Nagasaki UniversityDepartment of Cardiovascular Medicine, Saga UniversityThe Research Institute for Time Studies, Yamaguchi UniversityAbstract Almost all organisms maintain a circadian clock from birth to death to synchronize their own physiology and behavior with the earth’s rotation. Because the in vivo evaluation of human circadian characteristics is labor-intensive, in vitro or ex vivo approaches could provide advantages. In this study, to enable the simple and non-invasive evaluation of autonomous circadian oscillation, we established a method for monitoring clock gene expression by performing ex vivo culture of whole hair root tissue. This method is extremely simple and imposes little burden on subjects. Results obtained using Cryptochrome-deficient mice support that circadian period length in hair tissue correlates with intrinsic period length observed in physiology and behavior. We then applied this method to old-old subjects with severe dementia, who showed abnormal circadian behavior, and found that their peripheral clocks autonomously oscillated in a manner similar to those of healthy or younger subjects, indicating that the effect of cellular senescence on the autonomous clock oscillator is limited at least in some cell types. Although further validation may be required, the hair tissue-based culture assay would be a tool to investigate intrinsic circadian characteristics in humans.https://doi.org/10.1038/s41598-017-07268-8
collection DOAJ
language English
format Article
sources DOAJ
author Ai Yamaguchi
Ritsuko Matsumura
Takashi Matsuzaki
Wataru Nakamura
Koichi Node
Makoto Akashi
spellingShingle Ai Yamaguchi
Ritsuko Matsumura
Takashi Matsuzaki
Wataru Nakamura
Koichi Node
Makoto Akashi
A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
Scientific Reports
author_facet Ai Yamaguchi
Ritsuko Matsumura
Takashi Matsuzaki
Wataru Nakamura
Koichi Node
Makoto Akashi
author_sort Ai Yamaguchi
title A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
title_short A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
title_full A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
title_fullStr A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
title_full_unstemmed A simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
title_sort simple method using ex vivo culture of hair follicle tissue to investigate intrinsic circadian characteristics in humans
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract Almost all organisms maintain a circadian clock from birth to death to synchronize their own physiology and behavior with the earth’s rotation. Because the in vivo evaluation of human circadian characteristics is labor-intensive, in vitro or ex vivo approaches could provide advantages. In this study, to enable the simple and non-invasive evaluation of autonomous circadian oscillation, we established a method for monitoring clock gene expression by performing ex vivo culture of whole hair root tissue. This method is extremely simple and imposes little burden on subjects. Results obtained using Cryptochrome-deficient mice support that circadian period length in hair tissue correlates with intrinsic period length observed in physiology and behavior. We then applied this method to old-old subjects with severe dementia, who showed abnormal circadian behavior, and found that their peripheral clocks autonomously oscillated in a manner similar to those of healthy or younger subjects, indicating that the effect of cellular senescence on the autonomous clock oscillator is limited at least in some cell types. Although further validation may be required, the hair tissue-based culture assay would be a tool to investigate intrinsic circadian characteristics in humans.
url https://doi.org/10.1038/s41598-017-07268-8
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