Simultaneous oral and inhalational intake of molecular hydrogen additively suppresses signaling pathways in rodents

Kazuaki Yamai, Kinji Ohno, Masafumi Ito, Masatoshi Ichihara, Mikako Ito, Sayaka Sobue, Shanlou Qiao, Takashi Iwamoto, Tetsuo Ohkuwa

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DOI: 10.1007/s11010-015-2353-y DOI is the universal ID for this study.

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Abstract:

Molecular hydrogen (H2) is an agent with potential applications in oxidative stress-related and/or inflammatory disorders. H2 is usually administered by inhaling H2-containing air (HCA) or by oral intake of H2-rich water (HRW). Despite mounting evidence, the molecular mechanism underlying the therapeutic effects and the optimal method of H2 administration remain unclear. Here, we investigated whether H2 affects signaling pathways and gene expression in a dosage- or dose regimen-dependent manner. We first examined the H2 concentrations in blood and organs after its administration and found that oral intake of HRW rapidly but transiently increased H2 concentrations in the liver and atrial blood, while H2 concentrations in arterial blood and the kidney were one-tenth of those in the liver and atrial blood. In contrast, inhalation of HCA increased H2 equally in both atrial and arterial blood. We next examined whether H2 alters gene expression in normal mouse livers using DNA microarray analysis after administration of HCA and HRW. Ingenuity Pathway Analysis revealed that H2 suppressed the expression of nuclear factor-kappa B (NF-κB)-regulated genes. Western blot analysis showed that H2 attenuated ERK, p38 MAPK, and NF-κB signaling in mouse livers. Finally, we evaluated whether the changes in gene expression were influenced by the route of H2 administration and found that the combination of both HRW and HCA had the most potent effects on signaling pathways and gene expression in systemic organs, suggesting that H2 may act not only through a dose-dependent mechanism but also through a complex molecular network.

Publish Year 2015
Country Japan
Rank Positive
Journal Molecular and Cellular Biochemistry
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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