High dietary phosphate intake induces anxiety in normal male mice

IF 3.5 Q2 IMMUNOLOGY

Brain, behavior, & immunity - health Pub Date : 2025-09-19 DOI:10.1016/j.bbih.2025.101112

Pavel Yanev , Thomas A. Ujas , Han-Kyul Kim , Teppei Fujikawa , Noriyoshi Isozumi , Eiichiro Mori , Jadwiga Turchan-Cholewo , Connor Stuart , Rowan Sturgill , Shari G. Birnbaum , Ann M. Stowe , Wanpen Vongpatanasin

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引用次数: 0

Abstract

Background

Diet is increasingly recognized as an important risk factor for mental health. Inorganic phosphate (Pi) is currently used as a flavor enhancer or preservative at an unregulated amount in the western diet despite evidence that excessive dietary Pi intake associates with metabolic and cardiovascular disorders. The impact of high Pi on brain function remains poorly understood. This study aimed to evaluate the effects of chronic consumption of high dietary phosphate on behavior, neurovascular health, and neuroimmune populations, and cortical gene expression in key brain regions associated with emotional regulation.

Methods

Adult C57BL/6 male mice were fed either a normal phosphate (NP) or high phosphate (HP) diet for 12 weeks. Behavioral assessments included the open field test (OFT) and fear conditioning. Histological analyses assessed neuronal densities and vascularization. Flow cytometry quantified brain-resident immune cell populations and microglia. Unbiased analysis of hippocampal gene expression was performed using RNA sequencing (RNA-Seq).

Results

HP-fed mice exhibited increased anxiety-like behaviors compared to NP-fed controls, as indicated by increased thigmotaxis (i.e., more time close to the walls and, consequently, less time spent in the central area, HP: 164 ± 61 vs. NP: 215 ± 54 s, P = 0.03) in the OFT and increased time freezing regardless of stimulus type during fear conditioning. Neuronal density is significantly decreased in the hypothalamus of HP-fed mice (21.9 % ± 4.5 % vs. 16.4 ± 2.9 %, P = 0.02) but without concomitant differences in brain vascularization. Immunophenotyping showed that HP-diet significantly reduced TCRβ⁺ T cells and NK1.1⁺ NK cells (both P < 0.05), suggesting diet-induced alterations in neuroimmune homeostasis. RNA-Seq identified significant alterations in gene expression in the hippocampus, including upregulation of Neat1 and Stat3 and downregulation of Igf2, which are implicated in stress regulation, neurodegeneration, synaptic plasticity and immune system pathways.

Conclusions

Collectively, this study highlights that habitual consumption of high dietary phosphate in mice may induce chronic anxiety, accompanied by significant changes in the neuronal and brain-resident immune populations. The data point to a potential link between dietary Pi, neuroinflammation, and the pathogenesis of anxiety and depression in otherwise healthy young male mice. Given the prevalence of phosphate additives in processed foods, these findings have important public health implications supporting the regulation of Pi in the food industry.

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高膳食磷酸盐摄入可引起正常雄性小鼠的焦虑

饮食越来越被认为是心理健康的一个重要风险因素。无机磷酸盐（Pi）目前在西方饮食中被用作风味增强剂或防腐剂，但用量不受监管，尽管有证据表明，饮食中摄入过多的Pi与代谢和心血管疾病有关。高π值对大脑功能的影响仍然知之甚少。本研究旨在评估长期摄入高磷饮食对行为、神经血管健康、神经免疫群体以及与情绪调节相关的关键脑区皮质基因表达的影响。方法C57BL/6成年雄性小鼠分别饲喂正常磷（NP）和高磷（HP）饲粮12周。行为评估包括开放式测试（OFT）和恐惧条件反射。组织学分析评估神经元密度和血管化。流式细胞术定量脑驻留免疫细胞群和小胶质细胞。采用RNA测序（RNA- seq）对海马基因表达进行无偏分析。结果与NP喂养的对照组相比，shp喂养的小鼠表现出了更多的焦虑样行为，这表明，在恐惧条件反射期间，无论刺激类型如何，外脑的移动性增加（即更多的时间接近墙壁，因此在中心区域花费的时间更少，HP: 164±61 vs NP: 215±54 s, P = 0.03），时间冻结增加。hp喂养小鼠下丘脑神经元密度显著降低（21.9%±4.5% vs. 16.4±2.9%,P = 0.02），但脑血管化未出现差异。免疫表型分析显示，hp饮食显著降低了TCRβ+ T细胞和NK1.1+ NK细胞（P < 0.05），提示饮食诱导了神经免疫稳态的改变。RNA-Seq发现海马中基因表达的显著改变，包括Neat1和Stat3的上调以及Igf2的下调，这些基因表达与应激调节、神经退行性变、突触可塑性和免疫系统通路有关。综上所述，本研究强调，小鼠习惯性摄入高磷饮食可能会诱发慢性焦虑，并伴随神经元和脑内免疫群体的显著变化。这些数据表明，在健康的年轻雄性小鼠中，饮食Pi、神经炎症以及焦虑和抑郁的发病机制之间存在潜在的联系。鉴于磷酸盐添加剂在加工食品中的普遍存在，这些发现具有重要的公共卫生意义，支持对食品工业中的Pi进行监管。

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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