Core circadian clock gene expression in human dental pulp‐derived cells in response to L‐mimosine, hypoxia and echinomycin

Core circadian clock genes set the pace for a wide range of physiological functions, including regeneration. The role of these genes and their regulation in the dental pulp, in particular under hypoxic conditions, is unknown. Here we investigated if core clock genes are expressed in human dental pul...

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Bibliographic Details
Published in:European journal of oral sciences 2018-08, Vol.126 (4), p.263-271
Main Authors: Janjić, Klara, Kurzmann, Christoph, Moritz, Andreas, Agis, Hermann
Format: Article
Language:English
Subjects:
Biological clocks
Blotting, Western
Cell Culture Techniques
chronobiology phenomena
Circadian Clocks - genetics
Circadian rhythm
Circadian rhythms
Clock gene
Dental pulp
Dental Pulp - cytology
Dentistry
Echinomycin
Echinomycin - pharmacology
Electrophoresis, Polyacrylamide Gel
endodontics
fibroblasts
Gene expression
Gene Expression Regulation
Gene regulation
Genes
Humans
Hypoxia
hypoxia mimetic agents
In Vitro Techniques
Mimosine
Mimosine - pharmacology
Monolayers
Original
Polymerase Chain Reaction
Proteins
pulp regeneration
Regeneration
RNA, Messenger - metabolism
Spheroids
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Summary:Core circadian clock genes set the pace for a wide range of physiological functions, including regeneration. The role of these genes and their regulation in the dental pulp, in particular under hypoxic conditions, is unknown. Here we investigated if core clock genes are expressed in human dental pulp‐derived cells (DPC) and if their expression is modulated by the hypoxia mimetic agent, L‐mimosine (L‐MIM), hypoxia or echinomycin. Dental pulp‐derived cells in monolayers and spheroids were treated with L‐MIM, hypoxia or echinomycin. mRNA levels of the core circadian clock genes were analysed using quantitative PCR (qPCR) and their protein levels were analysed by western blot. All core clock genes and proteins were produced in DPC monolayer and spheroid cultures. The expression of cryptochrome circadian regulators and period circadian regulators was reduced by L‐MIM, hypoxia and echinomycin at mRNA, but not at protein levels. Time course experiments indicated that modulations were based on alterations in overall mRNA levels of core circadian clock genes. Our results suggest a potential role of the core circadian clock in the response of dental pulp to hypoxia. Future studies need to consider that regulation of the core circadian clock at mRNA levels might not be paralleled by modulation of protein levels.
ISSN:0909-8836
1600-0722
DOI:10.1111/eos.12535