Sex-specific role of high-fat diet and stress on behavior, energy metabolism, and the ventromedial hypothalamus.

IF 4.9 2区医学 Q1 ENDOCRINOLOGY & METABOLISM Biology of Sex Differences Pub Date : 2024-07-15 DOI:10.1186/s13293-024-00628-w

Sanutha Shetty, Samuel J Duesman, Sanil Patel, Pacific Huynh, Pamela Toh, Sanjana Shroff, Anika Das, Disha Chowhan, Benjamin Keller, Johana Alvarez, Rachel Fisher-Foye, Robert Sebra, Kristin Beaumont, Cameron S McAlpine, Prashant Rajbhandari, Abha K Rajbhandari

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Abstract

Background: Scientific evidence highlights the influence of biological sex on the relationship between stress and metabolic dysfunctions. However, there is limited understanding of how diet and stress concurrently contribute to metabolic dysregulation in both males and females. Our study aimed to investigate the combined effects of high-fat diet (HFD) induced obesity and repeated stress on fear-related behaviors, metabolic, immune, and hypothalamic outcomes in male and female mice.

Methods: To investigate this, we used a highly reliable rodent behavioral model that faithfully recapitulates key aspects of post-traumatic stress disorder (PTSD)-like fear. We subjected mice to footshock stressor followed by a weekly singular footshock stressor or no stressor for 14 weeks while on either an HFD or chow diet. At weeks 10 and 14 we conducted glucose tolerance and insulin sensitivity measurements. Additionally, we placed the mice in metabolic chambers to perform indirect calorimetric measurements. Finally, we collected brain and peripheral tissues for cellular analysis.

Results: We observed that HFD-induced obesity disrupted fear memory extinction, increased glucose intolerance, and affected energy expenditure specifically in male mice. Conversely, female mice on HFD exhibited reduced respiratory exchange ratio (RER), and a significant defect in glucose tolerance only when subjected to repeated stress. Furthermore, the combination of repeated stress and HFD led to sex-specific alterations in proinflammatory markers and hematopoietic stem cells across various peripheral metabolic tissues. Single-nuclei RNA sequencing (snRNAseq) analysis of the ventromedial hypothalamus (VMH) revealed microglial activation in female mice on HFD, while male mice on HFD exhibited astrocytic activation under repeated stress.

Conclusions: Overall, our findings provide insights into complex interplay between repeated stress, high-fat diet regimen, and their cumulative effects on health, including their potential contribution to the development of PTSD-like stress and metabolic dysfunctions, emphasizing the need for further research to fully understand these interconnected pathways and their implications for health.

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高脂饮食和压力对行为、能量代谢和腹内侧下丘脑的作用具有性别特异性。

背景：科学证据强调了生理性别对压力和代谢功能障碍之间关系的影响。然而，人们对饮食和压力如何同时导致男性和女性代谢失调的了解还很有限。我们的研究旨在调查高脂饮食（HFD）诱导肥胖和反复应激对雌雄小鼠恐惧相关行为、代谢、免疫和下丘脑结果的综合影响：为了研究这个问题，我们使用了一种高度可靠的啮齿动物行为模型，它能忠实地再现创伤后应激障碍（PTSD）样恐惧的关键方面。我们对小鼠进行了为期 14 周的脚震应激，随后每周进行一次单次脚震应激或不进行应激，同时让小鼠食用高脂低糖食物或饲料。在第 10 周和第 14 周，我们进行了葡萄糖耐量和胰岛素敏感性测量。此外，我们还将小鼠放入代谢室进行间接热量测量。最后，我们收集了脑组织和外周组织进行细胞分析：结果：我们观察到，高密度脂蛋白胆固醇诱导的肥胖破坏了恐惧记忆的消退，增加了葡萄糖不耐受性，并影响了雄性小鼠的能量消耗。相反，雌性高氟日粮小鼠只有在反复应激时才会表现出呼吸交换比（RER）降低和葡萄糖耐量的显著缺陷。此外，重复应激和高氟酸膳食的组合导致了不同性别小鼠外周代谢组织中促炎标志物和造血干细胞的改变。腹内侧下丘脑（VMH）的单核糖核酸测序（snRNAseq）分析显示，高频分解雌性小鼠的小胶质细胞活化，而高频分解雄性小鼠在反复应激下表现出星形胶质细胞活化：总之，我们的研究结果提供了有关反复应激、高脂饮食方案及其对健康的累积影响之间复杂相互作用的见解，包括它们对创伤后应激障碍样应激和代谢功能障碍的潜在贡献，强调了进一步研究的必要性，以充分了解这些相互关联的途径及其对健康的影响。

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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来源期刊

Biology of Sex Differences ENDOCRINOLOGY & METABOLISM-GENETICS & HEREDITY

CiteScore

12.10

自引率

1.30%

发文量

审稿时长

14 weeks

期刊介绍： Biology of Sex Differences is a unique scientific journal focusing on sex differences in physiology, behavior, and disease from molecular to phenotypic levels, incorporating both basic and clinical research. The journal aims to enhance understanding of basic principles and facilitate the development of therapeutic and diagnostic tools specific to sex differences. As an open-access journal, it is the official publication of the Organization for the Study of Sex Differences and co-published by the Society for Women's Health Research. Topical areas include, but are not limited to sex differences in: genomics; the microbiome; epigenetics; molecular and cell biology; tissue biology; physiology; interaction of tissue systems, in any system including adipose, behavioral, cardiovascular, immune, muscular, neural, renal, and skeletal; clinical studies bearing on sex differences in disease or response to therapy.