Gabriela González-Velázquez, José Félix Aguirre-Garrido, Rigoberto Oros-Pantoja, Isidro Daniel Salinas-Velarde, Irazú Contreras, José Antonio Estrada, Alexandra Estela Soto-Piña
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引用次数: 0
Abstract
Introduction: Alterations in cognitive performance are associated with inadequate nutritional states and diet composition. Prebiotics, such as inulin, are substances that can modulate the gut microbiome and, consequently, brain function by producing metabolites such as short-chain fatty acids (SCFAs). This study aimed to evaluate the effect of supplementation with inulin on cognitive flexibility, body composition, and gut microbiota in a murine model exposed to a high-fat (HF) diet.
Methods: CD1 mice were divided into five groups: control fed a standard diet (C), high-fat diet (HF), inulin (I), high-fat diet with inulin (HFI), and manipulation control (M). Dietary supplementation was administered for 6 weeks. Cognitive flexibility was assessed using the Attentional Set-Shifting Test (AST). In addition, body composition was measured via electrical bioimpedance and adipose tissue compartments of each mouse were removed and weighed. Finally, gut microbiota metataxonomic was analyzed through metataxonomic bacterial 16S rRNA sequencing.
Results: We observed that HF group required more AST trials than the C, HFI, and I groups in the compound discrimination (CD) and extra-dimensional (ED) stages. Notably, the HFI group required fewer trials than the HF group in the ED stage (p = 0.0187). No significant differences in overall body composition were observed between the groups. However, the percentage of gonadal and peritoneal adipose tissue was significantly higher in the HF and I groups compared to the C group. Statistically significant differences in alpha diversity for gut microbiota were observed using the Shannon, Simpson, and Chao1 indices. The I group showed a decrease in bacterial diversity compared to the HF group. While no differences were observed between groups in the phyla Bacillota and Bacteroidotes, Clostridium bacteria represented a lower proportion of sequences in the I group compared to the C group. Additionally, Lactobacillus represented a lower proportion of sequences in the HF group compared to the C and I groups.
Discussion: These findings suggest that supplementation with inulin could be a useful approach to mitigate the negative effects of an HF diet on cognitive flexibility and modulate gut microbiota composition.
引言认知能力的改变与营养状态和饮食成分不足有关。菊粉等益生元是一种可以调节肠道微生物群的物质,通过产生短链脂肪酸(SCFAs)等代谢产物,从而调节大脑功能。本研究旨在评估在暴露于高脂肪(HF)饮食的小鼠模型中补充菊粉对认知灵活性、身体成分和肠道微生物群的影响:将 CD1 小鼠分为五组:标准饮食对照组(C)、高脂饮食组(HF)、菊粉组(I)、添加菊粉的高脂饮食组(HFI)和操作对照组(M)。膳食补充剂的使用时间为 6 周。认知灵活性通过注意力集合转移测试(AST)进行评估。此外,还通过生物电阻抗测量了小鼠的身体成分,并对每只小鼠的脂肪组织进行了切除和称重。最后,通过元分类细菌16S rRNA测序分析了肠道微生物群元分类:我们观察到,在复合辨别(CD)和超维(ED)阶段,HF 组比 C 组、HFI 组和 I 组需要更多的 AST 试验。值得注意的是,在 ED 阶段,HFI 组所需的试验次数少于 HF 组(p = 0.0187)。两组之间的总体身体成分没有明显差异。不过,与 C 组相比,HF 组和 I 组的性腺和腹膜脂肪组织百分比明显更高。使用香农指数、辛普森指数和 Chao1 指数观察到肠道微生物群的α多样性存在统计学意义上的显著差异。与高频组相比,I 组的细菌多样性有所下降。虽然在芽孢杆菌门和类杆菌门中没有观察到组间差异,但与 C 组相比,I 组中梭状芽孢杆菌的序列比例较低。此外,与 C 组和 I 组相比,HF 组中乳酸杆菌的序列比例较低:这些研究结果表明,补充菊粉可能是减轻高频饮食对认知灵活性的负面影响和调节肠道微生物群组成的有效方法。
期刊介绍:
Frontiers in Behavioral Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the neural mechanisms underlying behavior. Field Chief Editor Nuno Sousa at the Instituto de Pesquisa em Ciências da Vida e da Saúde (ICVS) is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
This journal publishes major insights into the neural mechanisms of animal and human behavior, and welcomes articles studying the interplay between behavior and its neurobiological basis at all levels: from molecular biology and genetics, to morphological, biochemical, neurochemical, electrophysiological, neuroendocrine, pharmacological, and neuroimaging studies.
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