Yun Hye Kim scite author profile

Intermittent fasting (IF), a periodic energy restriction, has been shown to provide health benefits equivalent to prolonged fasting or caloric restriction. However, our understanding of the underlying mechanisms of IF-mediated metabolic benefits is limited. Here we show that isocaloric IF improves metabolic homeostasis against diet-induced obesity and metabolic dysfunction primarily through adipose thermogenesis in mice. IF-induced metabolic benefits require fasting-mediated increases of vascular endothelial growth factor (VEGF) expression in white adipose tissue (WAT). Furthermore, periodic adipose-VEGF overexpression could recapitulate the metabolic improvement of IF in non-fasted animals. Importantly, fasting and adipose-VEGF induce alternative activation of adipose macrophage, which is critical for thermogenesis. Human adipose gene analysis further revealed a positive correlation of adipose VEGF-M2 macrophage-WAT browning axis. The present study uncovers the molecular mechanism of IF-mediated metabolic benefit and suggests that isocaloric IF can be a preventive and therapeutic approach against obesity and metabolic disorders.

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Thermogenesis-independent metabolic benefits conferred by isocaloric intermittent fasting in ob/ob mice

Kim

Yeung

Das

et al. 2019

Sci Rep

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Intermittent fasting (IF) is an effective dietary intervention to counteract obesity-associated metabolic abnormalities. Previously, we and others have highlighted white adipose tissue (WAT) browning as the main underlying mechanism of IF-mediated metabolic benefits. However, whether IF retains its efficacy in different models, such as genetically obese/diabetic animals, is unknown. Here, leptin-deficient ob/ob mice were subjected to 16 weeks of isocaloric IF, and comprehensive metabolic phenotyping was conducted to assess the metabolic effects of IF. Unlike our previous study, isocaloric IF-subjected ob/ob animals failed to exhibit reduced body weight gain, lower fat mass, or decreased liver lipid accumulation. Moreover, isocaloric IF did not result in increased thermogenesis nor induce WAT browning in ob/ob mice. These findings indicate that isocaloric IF may not be an effective approach for regulating body weight in ob/ob animals, posing the possible limitations of IF to treat obesity. However, despite the lack of improvement in insulin sensitivity, isocaloric IF-subjected ob/ob animals displayed improved glucose tolerance as well as higher postprandial insulin level, with elevated incretin expression, suggesting that isocaloric IF is effective in improving nutrient-stimulated insulin secretion. Together, this study uncovers the insulinotropic effect of isocaloric IF, independent of adipose thermogenesis, which is potentially complementary for the treatment of type 2 diabetes.

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CD36 mediates albumin transcytosis by dermal but not lung microvascular endothelial cells: role in fatty acid delivery

Raheel

Ghaffari

Khosraviani

et al. 2019

American Journal of Physiology-Lung Cellular and Molecular Phys

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In healthy blood vessels, albumin crosses the endothelium to leave the circulation by transcytosis. However, little is known about the regulation of albumin transcytosis or how it differs in different tissues; its physiological purpose is also unclear. Using total internal reflection fluorescence microscopy, we quantified transcytosis of albumin across primary human microvascular endothelial cells from both lung and skin. We then validated our in vitro findings using a tissue-specific knockout mouse model. We observed that albumin transcytosis was saturable in the skin but not the lung microvascular endothelial cells, implicating a receptor-mediated process. We identified the scavenger receptor CD36 as being both necessary and sufficient for albumin transcytosis across dermal microvascular endothelium, in contrast to the lung where macropinocytosis dominated. Mutations in the apical helical bundle of CD36 prevented albumin internalization by cells. Mice deficient in CD36 specifically in endothelial cells exhibited lower basal permeability to albumin and less basal tissue edema in the skin but not in the lung. Finally, these mice also exhibited a smaller subcutaneous fat layer despite having identical total body weights and circulating fatty acid levels as wild-type animals. In conclusion, CD36 mediates albumin transcytosis in the skin but not the lung. Albumin transcytosis may serve to regulate fatty acid delivery from the circulation to tissues.

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Intermittent fasting reverses age- and obesity- associated adipose fibrosis through circadian reprogramming of adipose precursor cells.

Lee

Patel

Yeung

et al. 2023

Preprint

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Aging is a crucial factor for tissue fibrosis that is closely associated with the functional decline of various organs. Fibrosis of white adipose tissue (WAT) is a hallmark of dysfunctional WAT that is directly linked to age- and obesity-associated metabolic abnormalities. Recent studies have highlighted the role of dysfunctional adipose progenitor cells (APCs) in WAT fibrosis and impaired adaptive tissue plasticity, leading to systemic insulin resistance. However, therapeutic options for WAT fibrosis are limited. Intermittent fasting (IF) is an effective dietary regimen for weight control and metabolic improvement through various mechanisms. Here, we show that IF confers therapeutic benefits in aged and obese mice through the reduction of WAT fibrosis. Single-cell analyses revealed that IF significantly reduces fibrotic signatures within APCs along with the upregulation of circadian pathways. Importantly, mice lacking a core circadian gene exhibited increased fibrotic signatures in WAT and diminished beneficial response to IF, indicating the requirement of functional circadian rhythm in IF-induced WAT remodeling. Lastly, we observed that a dysregulated circadian rhythm in human APCs is associated with WAT fibrosis and insulin resistance. Collectively, our findings highlight the novel role of the APC circadian rhythm in the plasticity of WAT and the metabolic response to IF.

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Circadian reprogramming of adipose progenitor cells regulates intermittent fasting-mediated adipose tissue remodeling and metabolic improvement

Lee

Patel

Yeung

et al. 2023

Preprint

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White adipose tissue (WAT) fibrosis is a hallmark of dysfunctional WAT that is directly linked to metabolic abnormalities. Recent studies have highlighted the role of dysfunctional adipose progenitor cells (APCs) in WAT fibrosis and impaired adaptive tissue plasticity, leading to systemic insulin resistance. However, therapeutic options for WAT fibrosis are limited. Intermittent fasting (IF) is an effective dietary regimen for weight control and metabolic improvement through various mechanisms, including healthy remodeling of WAT. However, whether IF is effective in improving age-associated WAT fibrosis and metabolic homeostasis is unknown. Here, we show that IF confers therapeutic benefits in aged and obese mice through reduction of WAT fibrosis. Single-cell analyses revealed that IF significantly reduces pro-fibrotic signatures within APCs along with upregulation of the circadian pathways, suggesting that the circadian clock of APCs mediates IF-induced WAT remodeling. Importantly, mice lacking core circadian gene exhibited increased fibrotic signatures in WAT and diminished beneficial response to IF, further supporting the importance of circadian rhythm in IF-mediated metabolic benefits. Lastly, insulin resistance in humans also presented with dysregulated circadian rhythm signatures in APC populations. Collectively, our findings highlight the novel role of the APC circadian rhythm in plasticity of WAT and metabolic response to IF.

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Yun Hye Kim

Intermittent fasting promotes adipose thermogenesis and metabolic homeostasis via VEGF-mediated alternative activation of macrophage

Thermogenesis-independent metabolic benefits conferred by isocaloric intermittent fasting in ob/ob mice

CD36 mediates albumin transcytosis by dermal but not lung microvascular endothelial cells: role in fatty acid delivery

Intermittent fasting reverses age- and obesity- associated adipose fibrosis through circadian reprogramming of adipose precursor cells.

Circadian reprogramming of adipose progenitor cells regulates intermittent fasting-mediated adipose tissue remodeling and metabolic improvement

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