整合分析高脂肪喂养对小鼠大脑弥散张量图像和神经化学特征的生理反应。

Integrative analysis of physiological responses to high fat feeding with diffusion tensor images and neurochemical profiles of the mouse brain.

机构信息

Instituto de Investigaciones Biomédicas "Alberto Sols" CSIC-UAM, Madrid, Spain.

Centro Técnico de Informática CSIC, Madrid, Spain.

出版信息

Int J Obes (Lond). 2021 Jun;45(6):1203-1214. doi: 10.1038/s41366-021-00775-9. Epub 2021 Feb 11.

DOI:10.1038/s41366-021-00775-9

PMID:33574566

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8159736/

Abstract

BACKGROUND

Obesity proceeds with important physiological and microstructural alterations in the brain, but the precise relationships between the diet and feeding status, its physiological responses, and the observed neuroimaging repercussions, remain elusive. Here, we implemented a mouse model of high fat diet (HFD) feeding to explore specific associations between diet, feeding status, phenotypic and endocrine repercussions, and the resulting microstructural and metabolic alterations in the brain, as detected by diffusion tensor imaging (DTI) and neurochemical metabolic profiling.

METHODS

Brain DTI images were acquired from adult male C57BL6/J mice after 6 weeks of HFD, or standard diet (SD) administrations, both under the fed, and overnight fasted conditions. Metabolomic profiles of the cortex (Ctx), hippocampus (Hipc), and hypothalamus (Hyp) were determined by H high-resolution magic angle spinning (HRMAS) spectroscopy, in cerebral biopsies dissected after microwave fixation. Mean diffusivity (MD), fractional anisotropy (FA) maps, and HRMAS profiles were complemented with determinations of phenotypic alterations and plasma levels of appetite-related hormones, measured by indirect calorimetry and multiplex assays, respectively. We used Z-score and alternating least squares scaling (ALSCAL) analysis to investigate specific associations between diet and feeding status, physiological, and imaging parameters.

RESULTS

HFD induced significant increases in body weight and the plasma levels of glucose and fatty acids in the fed and fasted conditions, as well as higher cerebral MD (Ctx, Hipc, Hyp), FA (Hipc), and mobile saturated fatty acids resonances (Ctx, Hipc, Hyp). Z-score and ASLCAL analysis identified the precise associations between physiological and imaging variables.

CONCLUSIONS

The present study reveals that diet and feeding conditions elicit prominent effects on specific imaging and spectroscopic parameters of the mouse brain that can be associated to the alterations in phenotypic and endocrine variables. Together, present results disclose a neuro-inflammatory response to HFD, characterized primarily by vasogenic edema and compensatory responses in osmolyte concentrations.

摘要

背景

肥胖会导致大脑发生重要的生理和微观结构改变，但饮食与摄食状态、生理反应以及观察到的神经影像学后果之间的确切关系仍难以捉摸。在这里，我们建立了高脂肪饮食（HFD）喂养的小鼠模型，以探索饮食、摄食状态、表型和内分泌反应之间的特定关联，以及弥散张量成像（DTI）和神经化学代谢分析检测到的大脑中的微观结构和代谢改变。

方法

从成年雄性 C57BL6/J 小鼠中获取大脑 DTI 图像，这些小鼠在接受 6 周的 HFD 或标准饮食（SD）喂养后，分别处于喂食和 overnight 禁食状态。通过高分辨率魔角旋转（HRMAS）光谱法，在微波固定后解剖的大脑活检中确定皮质（Ctx）、海马（Hipc）和下丘脑（Hyp）的代谢组学图谱。平均弥散度（MD）、分数各向异性（FA）图谱，以及 HRMAS 图谱，辅以通过间接量热法和多重分析分别测量的表型改变和与食欲相关的激素的血浆水平的测定。我们使用 Z 分数和交替最小二乘标度（ALSCAL）分析来研究饮食和摄食状态、生理和成像参数之间的特定关联。

结果

HFD 在喂食和禁食状态下引起体重显著增加和血糖及脂肪酸的血浆水平升高，以及大脑 MD（Ctx、Hipc、Hyp）、FA（Hipc）和可移动饱和脂肪酸共振（Ctx、Hipc、Hyp）升高。Z 分数和 ASLCAL 分析确定了生理和成像变量之间的精确关联。

结论

本研究揭示了饮食和摄食状态对小鼠大脑特定的成像和光谱参数产生显著影响，这些参数可以与表型和内分泌变量的改变相关。总之，目前的结果揭示了对 HFD 的神经炎症反应，其特征主要为血管源性水肿和渗透剂浓度的代偿性反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8110/8159736/d682051f0620/41366_2021_775_Fig1_HTML.jpg

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整合分析高脂肪喂养对小鼠大脑弥散张量图像和神经化学特征的生理反应。

Integrative analysis of physiological responses to high fat feeding with diffusion tensor images and neurochemical profiles of the mouse brain.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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