Dietary texture-driven masticatory activity and its impact on stress tolerance

IF 2.6 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of Oral Biosciences Pub Date : 2025-02-07 DOI:10.1016/j.job.2025.100628

Mie Kamate , Hitoshi Teranishi , Ryohei Umeda , Kenshiro Shikano , Shiho Kitaoka , Toshikatsu Hanada , Takatoshi Hikida , Kenji Kawano , Reiko Hanada

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Abstract

Objectives

Although previous studies suggest that dietary texture-driven masticatory activity is correlated with stress tolerance, the underlying mechanisms, including neurotransmitter dynamics, remain unclear. This study investigated the effects of dietary texture-driven masticatory activity on stress tolerance in mice.

Methods

Behavioral responses to stress were assessed using the repeated social defeat stress (R-SDS) and social interaction test (SIT) model. Neurotransmitter levels in stress-related brain regions were analyzed in mice fed a solid diet (promoting masticatory activity) or a powdered diet (decreasing masticatory activity).

Results

Mice fed the powdered diet exhibited reduced stress tolerance compared with those fed the solid diet. Following the R-SDS, the powdered diet group displayed elevated gamma-aminobutyric acid (GABA) and norepinephrine levels in the prefrontal cortex. Before stress treatment, glutamic acid levels increased and those of choline decreased in the amygdala, whereas dopamine levels decreased in the powdered diet group after the R-SDS. In the locus coeruleus, mice on the powdered diet showed decreased glutamic acid and adenosine levels, alongside increased GABA levels. Serotonin levels decreased in the powdered diet group after the R-SDS, with no changes observed after the SIT. In the ventral hippocampus, GABA levels increased in the powdered diet group but decreased after the SIT.

Conclusions

This study demonstrates a correlation between masticatory activity and stress tolerance, evidenced by both behavioral and neurotransmitter changes. These findings suggest that reduced masticatory activity due to dietary texture contributes to decreased stress resilience.

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饮食纹理驱动的咀嚼活动及其对应激耐受性的影响。

目的：尽管先前的研究表明，饮食结构驱动的咀嚼活动与应激耐受性相关，但其潜在机制，包括神经递质动力学，仍不清楚。本研究探讨了饮食纹理驱动的咀嚼活动对小鼠应激耐受性的影响。方法：采用重复社会失败应激（R-SDS）和社会互动测验（SIT）模型对应激行为反应进行评估。研究人员分析了喂食固体饮食（促进咀嚼活动）或粉状饮食（减少咀嚼活动）的小鼠应激相关脑区的神经递质水平。结果：饲喂粉状日粮的小鼠较饲喂固体日粮的小鼠表现出较低的应激耐受性。在R-SDS之后，粉状饮食组前额皮质的γ -氨基丁酸（GABA）和去甲肾上腺素水平升高。应激处理前，杏仁核谷氨酸水平升高，胆碱水平降低，而粉饲组在R-SDS后，多巴胺水平降低。在蓝斑区，粉状饮食小鼠显示谷氨酸和腺苷水平降低，同时GABA水平升高。在R-SDS后，粉状饮食组血清素水平下降，SIT后没有观察到变化。在腹侧海马体中，饲料粉组GABA水平升高，但SIT后下降。结论：本研究证明了咀嚼活动与应激耐受性之间的相关性，行为和神经递质的变化都证明了这一点。这些发现表明，由于饮食质地减少了咀嚼活动，导致应激恢复能力下降。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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