The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats

The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats

Abstract Background All living organisms experience physiological changes regulated by endogenous circadian rhythms. The main factor controlling the circadian clock is the duration of daylight. The aim of this research was to identify the impact of various lighting conditions on physiological parame...

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Main Authors: Ksenia M. Klimina, Ekaterina G. Batotsyrenova, Roman A. Yunes, Elena H. Gilyaeva, Elena U. Poluektova, Taisia A. Kostrova, Anna V. Kudryavtseva, Maya V. Odorskaya, Vadim A. Kashuro, Artem S. Kasianov, Maksim B. Ivanov, Valery N. Danilenko
Format: Article
Language:English
Published: BMC 2019-07-01
Series:BMC Microbiology
Subjects:
Biological rhythms
Desynchronosis
Circadian clock
Rats
Catecholamines
Protein expression
Online Access:http://link.springer.com/article/10.1186/s12866-019-1535-2
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spelling doaj-1d9b0831ece74197938cb4d1aea058e72020-11-25T03:01:03ZengBMCBMC Microbiology1471-21802019-07-0119111310.1186/s12866-019-1535-2The effects of desynchronosis on the gut microbiota composition and physiological parameters of ratsKsenia M. Klimina0Ekaterina G. Batotsyrenova1Roman A. Yunes2Elena H. Gilyaeva3Elena U. Poluektova4Taisia A. Kostrova5Anna V. Kudryavtseva6Maya V. Odorskaya7Vadim A. Kashuro8Artem S. Kasianov9Maksim B. Ivanov10Valery N. Danilenko11Department of Genetics and Biotechnology, Vavilov Institute of General Genetics Russian Academy of SciencesThe Laboratory of Biochemical Toxicology and Pharmacology, Institute of Toxicology Federal Medical Biological Agency of RussiaDepartment of Genetics and Biotechnology, Vavilov Institute of General Genetics Russian Academy of SciencesThe Laboratory of Biochemical Toxicology and Pharmacology, Institute of Toxicology Federal Medical Biological Agency of RussiaDepartment of Genetics and Biotechnology, Vavilov Institute of General Genetics Russian Academy of SciencesThe Laboratory of Biochemical Toxicology and Pharmacology, Institute of Toxicology Federal Medical Biological Agency of RussiaLaboratory of Post-Genomic Research, Engelhardt Institute of Molecular Biology, Russian Academy of SciencesDepartment of Genetics and Biotechnology, Vavilov Institute of General Genetics Russian Academy of SciencesThe Laboratory of Biochemical Toxicology and Pharmacology, Institute of Toxicology Federal Medical Biological Agency of RussiaDepartment of Genetics and Biotechnology, Vavilov Institute of General Genetics Russian Academy of SciencesThe Laboratory of Biochemical Toxicology and Pharmacology, Institute of Toxicology Federal Medical Biological Agency of RussiaDepartment of Genetics and Biotechnology, Vavilov Institute of General Genetics Russian Academy of SciencesAbstract Background All living organisms experience physiological changes regulated by endogenous circadian rhythms. The main factor controlling the circadian clock is the duration of daylight. The aim of this research was to identify the impact of various lighting conditions on physiological parameters and gut microbiota composition in rats. 3 groups of outbred rats were subjected to normal light-dark cycles, darkness and constant lighting. Results After 1 and 3 months we studied urinary catecholamine levels in rats; indicators of lipid peroxidation and antioxidant activity in the blood; protein levels of BMAL1, CLOCK and THRA in the hypothalamus; composition and functional activity of the gut microbiota. Subjecting the rats to conditions promoting desynchronosis for 3 months caused disruptions in homeostasis. Conclusions Changing the lighting conditions led to changes in almost all the physiological parameters that we studied. Catecholamines can be regarded as a synchronization super system of split-level circadian oscillators. We established a correlation between hypothalamic levels of Bmal1 and urinary catecholamine concentrations. The magnitude of changes in the GM taxonomic composition was different for LL/LD and DD/LD but the direction of these changes was similar. As for the predicted functional properties of the GM which characterize its metabolic activity, they didn’t change as dramatically as the taxonomic composition. All differences may be viewed as a compensatory reaction to new environmental conditions and the organism has adapted to those conditions.http://link.springer.com/article/10.1186/s12866-019-1535-2Biological rhythmsDesynchronosisCircadian clockRatsCatecholaminesProtein expression
collection DOAJ
language English
format Article
sources DOAJ
author Ksenia M. Klimina
Ekaterina G. Batotsyrenova
Roman A. Yunes
Elena H. Gilyaeva
Elena U. Poluektova
Taisia A. Kostrova
Anna V. Kudryavtseva
Maya V. Odorskaya
Vadim A. Kashuro
Artem S. Kasianov
Maksim B. Ivanov
Valery N. Danilenko
spellingShingle Ksenia M. Klimina
Ekaterina G. Batotsyrenova
Roman A. Yunes
Elena H. Gilyaeva
Elena U. Poluektova
Taisia A. Kostrova
Anna V. Kudryavtseva
Maya V. Odorskaya
Vadim A. Kashuro
Artem S. Kasianov
Maksim B. Ivanov
Valery N. Danilenko
The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
BMC Microbiology
Biological rhythms
Desynchronosis
Circadian clock
Rats
Catecholamines
Protein expression
author_facet Ksenia M. Klimina
Ekaterina G. Batotsyrenova
Roman A. Yunes
Elena H. Gilyaeva
Elena U. Poluektova
Taisia A. Kostrova
Anna V. Kudryavtseva
Maya V. Odorskaya
Vadim A. Kashuro
Artem S. Kasianov
Maksim B. Ivanov
Valery N. Danilenko
author_sort Ksenia M. Klimina
title The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
title_short The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
title_full The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
title_fullStr The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
title_full_unstemmed The effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
title_sort effects of desynchronosis on the gut microbiota composition and physiological parameters of rats
publisher BMC
series BMC Microbiology
issn 1471-2180
publishDate 2019-07-01
description Abstract Background All living organisms experience physiological changes regulated by endogenous circadian rhythms. The main factor controlling the circadian clock is the duration of daylight. The aim of this research was to identify the impact of various lighting conditions on physiological parameters and gut microbiota composition in rats. 3 groups of outbred rats were subjected to normal light-dark cycles, darkness and constant lighting. Results After 1 and 3 months we studied urinary catecholamine levels in rats; indicators of lipid peroxidation and antioxidant activity in the blood; protein levels of BMAL1, CLOCK and THRA in the hypothalamus; composition and functional activity of the gut microbiota. Subjecting the rats to conditions promoting desynchronosis for 3 months caused disruptions in homeostasis. Conclusions Changing the lighting conditions led to changes in almost all the physiological parameters that we studied. Catecholamines can be regarded as a synchronization super system of split-level circadian oscillators. We established a correlation between hypothalamic levels of Bmal1 and urinary catecholamine concentrations. The magnitude of changes in the GM taxonomic composition was different for LL/LD and DD/LD but the direction of these changes was similar. As for the predicted functional properties of the GM which characterize its metabolic activity, they didn’t change as dramatically as the taxonomic composition. All differences may be viewed as a compensatory reaction to new environmental conditions and the organism has adapted to those conditions.
topic Biological rhythms
Desynchronosis
Circadian clock
Rats
Catecholamines
Protein expression
url http://link.springer.com/article/10.1186/s12866-019-1535-2
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