Molecular hydrogen modulates gene expression via histone modification and induces the mitochondrial unfolded protein response

Chisato Inoue, Fumiko Hori, Masatoshi Ichihara, Sayaka Sobue, Shanlou Qiao, Takashi Murate

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DOI: 10.1016/j.bbrc.2017.09.024 DOI is the universal ID for this study.

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Abstract:

Molecular hydrogen (H2) is a biologically active gas that is used medically to ameliorate various systemic pathological conditions. H2 also regulates gene expression involved in intracellular signaling and metabolic pathways. However, it is unclear whether H2 affects gene expression directly or through indirect effects as a consequence of health improvement. Therefore, we attempted to identify genes that exhibit similar changes in expression in response to H2 by employing DNA microarrays and gene set enrichment analysis to analyze RNA from liver and lung of rats and mice with or without dietary stress. We found that H2 activated the expression of sets of genes regulated by histone H3K27 methylation status. H2 also modified the expression of many genes regulated by a wide variety of signaling pathways. RT-qPCR showed that H2 up-regulated expression of Kcnc3, a H3K27-regulated gene, in organs such as liver, lung, kidney and brain. Furthermore, using immunohistochemistry and immunoblot analysis, we observed changes in H3K27 methylation status in the liver of mice and rats administered H2. Moreover, we showed that H2 simultaneously induced the H3K27 demethylase, Jmjd3, and mitochondrial unfolded protein response (mtUPR)-related genes. Recently, alteration of mitochondrial function was shown to cause induction of H3K27 demethylase or chromatin restructuring, followed by mtUPR activation through the alteration of H3K27 or H3K9 methylation states. Taken together, our study suggests that H2 can induce beneficial effects through mtUPR activation via epigenetic histone modification and by modification of gene expression.

Publish Year 2017
Country Japan
Rank Positive
Journal Biochemical and Biophysical Research Communications
Primary Topic Whole Body
Secondary TopicStress Resilience
Model Rat
Tertiary TopicOxidative Stress
Vehicle Water (Electrolysis)
pH Neutral
Application Mixed
Comparison
Complement

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