膳食脂肪含量和吸收通过饥饿回路形成标准膳食贬值。

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Ames K. Sutton Hickey , Jordan Becker , Eva O. Karolczak , Andrew Lutas , Michael J. Krashes
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引用次数: 0

摘要

研究目的当小鼠面临选择时,暴露于60%的高脂饮食(HFD)会导致其对营养均衡的标准饮食(SD)产生强烈的消费偏好。即使在热量被剥夺的状态下,小鼠的标准食物摄入量也会显著减少,这突出表明了在高脂饮食挑战和撤消高脂饮食后,这种被动的高脂饮食诱导的标准食物贬值。导致这种 SD 贬值的 HFD 因素仍不清楚。可能的重要因素包括饮食中所含脂肪的数量和类型,以及过去依赖于感官特性(包括味觉和摄入后反馈)的进食经验。我们的目的是探索这些因素在高密度脂蛋白胆固醇诱导的自毁中的作用:方法:对野生型小鼠进行纵向饲喂离散高纤维食物和自毁,并分析其进食和代谢参数。另外一组动物在 3 种条件下对急性 HFD 偏好进行了评估:1)自由采食(饱食);2)一夜禁食(生理饥饿);3)自由采食(人工饥饿),通过化学遗传学方法激活Agouti相关肽(AgRP)神经元。记录了AgRP神经元在摄食前后对不同的不可摄食和可摄食饮食的种群动态。瞬时受体电位通道M5型(TRPM5)基因敲除小鼠被用来研究脂肪味觉的作用以及对高密度脂蛋白胆固醇诱导的自毁性偏好。使用临床批准的脂肪酶抑制剂奥利司他来测试脂肪吸收对HFD诱导的SD贬值的贡献:结果:HFD诱导的SD贬值取决于脂肪含量、组成和偏好。这种效应的强度和潜伏期随着动物脂肪百分比的增加而增加。在数小时和数天内,60%的高脂饮食是首选,而且几乎只食用其他饮食,但在最初引入时,这种情况在数秒和数分钟内并不明显,这表明摄入经验至关重要。AgRP活性的光导纤维光度计记录证实了这一观点,因为不同饮食对神经元的抑制取决于之前的摄入量。虽然通过TRPM5传导的味觉影响了高氟酸膳食诱发的体重增加,但却未能影响高氟酸膳食偏好或高氟酸膳食诱发的标清贬值。通过奥利司他介导的脂肪吸收减少来扰乱摄食后反馈,可以防止高氟酸膳食诱发的体重增加,并消除高氟酸膳食诱发的自毁:结论:通过脂肪消化的摄食后反馈对HFD诱导的SD贬值的表达至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dietary fat content and absorption shape standard diet devaluation through hunger circuits

Objective

Exposure to 60% high fat diet (HFD) leads to a robust consummatory preference over well-balanced chow standard diet (SD) when mice are presented with a choice. This passive HFD-induced SD devaluation following HFD challenge and withdrawal is highlighted by the significant reduction in SD food intake even in states of caloric deprivation. The elements of HFD that lead to this SD depreciation remains unclear. Possibly important factors include the amount and type of fat contained in a diet as well as past eating experiences dependent on sensory properties including taste and post ingestive feedback. We aimed to explore the role of these components to HFD-induced SD devaluation.

Methods

Wildtype mice were longitudinally presented discrete HFDs in conjunction with SD and feeding and metabolic parameters were analyzed. A separate cohort of animals were assessed for acute HFD preference in 3 conditions: 1) ad libitum fed (sated), 2) overnight fasted (physiologically hungry), and 3) ad libitum fed (artificially hungry), elicited through chemogenetic Agouti-related peptide (AgRP) neuron activation. Population dynamics of AgRP neurons were recorded to distinct inaccessible and accessible diets both before and after consummatory experience. Transient receptor potential channel type M5 (TRPM5) knockout mice were used to investigate the role of fat taste perception and preference to HFD-induced SD devaluation. The clinically approved lipase inhibitor orlistat was used to test the contribution of fat absorption to HFD-induced SD devaluation.

Results

HFD-induced SD devaluation is dependent on fat content, composition, and preference. This effect scaled both in strength and latency with higher percentages of animal fat. 60% HFD was preferred and almost exclusively consumed in preference to other diets across hours and days, but this was not as evident upon initial introduction over seconds and minutes, suggesting ingestive experience is critical. Optical fiber photometry recordings of AgRP activity supported this notion as neuronal suppression by the different diets was contingent on prior intake. While taste transduced via TRPM5 influenced HFD-evoked weight gain, it failed to impact either HFD preference or HFD-induced SD devaluation. Perturbation of post ingestive feedback through orlistat-mediated diminishment of fat absorption prevented HFD-evoked weight gain and abolished HFD-induced SD devaluation.

Conclusions

Post ingestive feedback via fat digestion is vital for expression of HFD-induced SD devaluation.

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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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