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Your search keyword '"Youm, Yun-Hee"' showing total 21 results
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21 results on '"Youm, Yun-Hee"'

1. IL-33 causes thermogenic failure in aging by expanding dysfunctional adipose ILC2.

Author

Goldberg, Emily L, Shchukina, Irina, Youm, Yun-Hee, Ryu, Seungjin, Tsusaka, Takeshi, Young, Kyrlia C, Camell, Christina D, Dlugos, Tamara, Artyomov, Maxim N, and Dixit, Vishwa Deep

Subjects
Lung, Adipose Tissue, Lymphocytes, Animals, Mice, Inbred C57BL, Mice, Aging, Immunity, Innate, Interleukin-33, IL-33, ILC2, adipose, aging, inflammation, metabolism, thermogenesis, Nutrition, Aetiology, 2.1 Biological and endogenous factors, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Endocrinology & Metabolism
Abstract

Aging impairs the integrated immunometabolic responses, which have evolved to maintain core body temperature in homeotherms to survive cold stress, infections, and dietary restriction. Adipose tissue inflammation regulates the thermogenic stress response, but how adipose tissue-resident cells instigate thermogenic failure in the aged are unknown. Here, we define alterations in the adipose-resident immune system and identify that type 2 innate lymphoid cells (ILC2s) are lost in aging. Restoration of ILC2 numbers in aged mice to levels seen in adults through IL-33 supplementation failed to rescue old mice from metabolic impairment and increased cold-induced lethality. Transcriptomic analyses revealed intrinsic defects in aged ILC2, and adoptive transfer of adult ILC2s are sufficient to protect old mice against cold. Thus, the functional defects in adipose ILC2s during aging drive thermogenic failure.

Published
2021

2. Reduction of SPARC protects mice against NLRP3 inflammasome Activation and obesity

Author

Ryu, Seungjin, Spadaro, Olga, Sidorov, Sviatoslav, Lee, Aileen H., Caprio, Sonia, Morrison, Christopher, Smith, Steven R., Ravussin, Eric, Shchukina, Irina, Artyomov, Maxim N., Youm, Yun-Hee, and Dixit, Vishwa Deep

Subjects
Thermo Fisher Scientific Inc., Scientific equipment and supplies industry, Obesity, Inflammation, Adipose tissues, Medical colleges, Macrophages, Health care industry
Abstract

The comprehensive assessment of long-term effects of reducing intake of energy (CALERIE-II; NCT00427193) clinical trial established that caloric restriction (CR) in humans lowers inflammation. The identity and mechanism of endogenous CR-mimetics that can be deployed to control obesity-associated inflammation and diseases are not well understood. Our studies have found that 2 years of 14% sustained CR in humans inhibits the expression of the matricellular protein, secreted protein acidic and rich in cysteine (SPARC), in adipose tissue. In mice, adipose tissue remodeling caused by weight loss through CR and low-protein diet feeding decreased, while high-fat diet-induced (HFD-induced) obesity increased SPARC expression in adipose tissue. Inducible SPARC downregulation in adult mice mimicked CR's effects on lowering adiposity by regulating energy expenditure. Deletion of SPARC in adipocytes was sufficient to protect mice against HFD-induced adiposity, chronic inflammation, and metabolic dysfunction. Mechanistically, SPARC activates the NLRP3 inflammasome at the priming step and downregulation of SPARC lowers macrophage inflammation in adipose tissue, while excess SPARC activated macrophages via |NK signaling. Collectively, reduction of adipocyte- derived SPARC confers CR-like metabolic and antiinflammatory benefits in obesity by serving as an immunometabolic checkpoint of inflammation., Introduction Substantial research effort has been invested to identify the caloric restriction (CR) mimetics that can be deployed to enhance lifespan and health span (1). However, the longevity dividend produced [...]

Published
2023
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4. The ketone metabolite β-hydroxybutyrate blocks NLRP3 inflammasome–mediated inflammatory disease

Author

Youm, Yun-Hee, Nguyen, Kim Y, Grant, Ryan W, Goldberg, Emily L, Bodogai, Monica, Kim, Dongin, D'Agostino, Dominic, Planavsky, Noah, Lupfer, Christopher, Kanneganti, Thirumala D, Kang, Seokwon, Horvath, Tamas L, Fahmy, Tarek M, Crawford, Peter A, Biragyn, Arya, Alnemri, Emad, and Dixit, Vishwa Deep

Subjects
Nutrition, 3-Hydroxybutyric Acid, Adult, Aged, Animals, Carrier Proteins, Caspase 1, Cryopyrin-Associated Periodic Syndromes, Diet, Ketogenic, Disease Models, Animal, Female, Humans, Inflammasomes, Inflammation, Interleukin-18, Interleukin-1beta, Male, Mice, Monocytes, NLR Family, Pyrin Domain-Containing 3 Protein, Potassium, Cryopyrin-associated Periodic Syndromes, Medical and Health Sciences, Immunology
Abstract

The ketone bodies β-hydroxybutyrate (BHB) and acetoacetate (AcAc) support mammalian survival during states of energy deficit by serving as alternative sources of ATP. BHB levels are elevated by starvation, caloric restriction, high-intensity exercise, or the low-carbohydrate ketogenic diet. Prolonged fasting reduces inflammation; however, the impact that ketones and other alternative metabolic fuels produced during energy deficits have on the innate immune response is unknown. We report that BHB, but neither AcAc nor the structurally related short-chain fatty acids butyrate and acetate, suppresses activation of the NLRP3 inflammasome in response to urate crystals, ATP and lipotoxic fatty acids. BHB did not inhibit caspase-1 activation in response to pathogens that activate the NLR family, CARD domain containing 4 (NLRC4) or absent in melanoma 2 (AIM2) inflammasome and did not affect non-canonical caspase-11, inflammasome activation. Mechanistically, BHB inhibits the NLRP3 inflammasome by preventing K(+) efflux and reducing ASC oligomerization and speck formation. The inhibitory effects of BHB on NLRP3 are not dependent on chirality or starvation-regulated mechanisms like AMP-activated protein kinase (AMPK), reactive oxygen species (ROS), autophagy or glycolytic inhibition. BHB blocks the NLRP3 inflammasome without undergoing oxidation in the TCA cycle, and independently of uncoupling protein-2 (UCP2), sirtuin-2 (SIRT2), the G protein-coupled receptor GPR109A or hydrocaboxylic acid receptor 2 (HCAR2). BHB reduces NLRP3 inflammasome-mediated interleukin (IL)-1β and IL-18 production in human monocytes. In vivo, BHB or a ketogenic diet attenuates caspase-1 activation and IL-1β secretion in mouse models of NLRP3-mediated diseases such as Muckle-Wells syndrome, familial cold autoinflammatory syndrome and urate crystal-induced peritonitis. Our findings suggest that the anti-inflammatory effects of caloric restriction or ketogenic diets may be linked to BHB-mediated inhibition of the NLRP3 inflammasome.

Published
2015

5. Activation of transsulfuration pathway to maintain cysteine is a thermogenic checkpoint for the conservation of energy

Author

Dixit, Vishwa, primary, Lee, Aileen, additional, Sugiura, Yuki, additional, Youm, Yun-Hee, additional, Dlugos, Tamara, additional, Maeda, Rae, additional, Coman, Daniel, additional, Spadaro, Olga, additional, Sidorov, Sviatoslav, additional, Shcukina, Irina, additional, Andhey, Prabhakar Sairam, additional, Smith, Steven, additional, Ravussin, Eric, additional, Hyder, Fahmeed, additional, and Artyomov, Maxim, additional

Published
2023
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8. Ketogenic diet restrains aging-induced exacerbation of coronavirus infection in mice

Author

Ryu, Seungjin, primary, Shchukina, Irina, additional, Youm, Yun-Hee, additional, Qing, Hua, additional, Hilliard, Brandon, additional, Dlugos, Tamara, additional, Zhang, Xinbo, additional, Yasumoto, Yuki, additional, Booth, Carmen J, additional, Fernández-Hernando, Carlos, additional, Suárez, Yajaira, additional, Khanna, Kamal, additional, Horvath, Tamas L, additional, Dietrich, Marcelo O, additional, Artyomov, Maxim, additional, Wang, Andrew, additional, and Dixit, Vishwa Deep, additional

Published
2021
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9. Author response: Ketogenic diet restrains aging-induced exacerbation of coronavirus infection in mice

Author

Ryu, Seungjin, primary, Shchukina, Irina, additional, Youm, Yun-Hee, additional, Qing, Hua, additional, Hilliard, Brandon, additional, Dlugos, Tamara, additional, Zhang, Xinbo, additional, Yasumoto, Yuki, additional, Booth, Carmen J, additional, Fernández-Hernando, Carlos, additional, Suárez, Yajaira, additional, Khanna, Kamal, additional, Horvath, Tamas L, additional, Dietrich, Marcelo O, additional, Artyomov, Maxim, additional, Wang, Andrew, additional, and Dixit, Vishwa Deep, additional

Published
2021
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10. Ketogenesis restrains aging-induced exacerbation of COVID in a mouse model

Author

Ryu, Seungjin, primary, Shchukina, Irina, additional, Youm, Yun-Hee, additional, Qing, Hua, additional, Hilliard, Brandon K., additional, Dlugos, Tamara, additional, Zhang, Xinbo, additional, Yasumoto, Yuki, additional, Booth, Carmen J., additional, Fernández-Hernando, Carlos, additional, Suárez, Yajaira, additional, Khanna, Kamal M., additional, Horvath, Tamas L., additional, Dietrich, Marcelo O., additional, Artyomov, Maxim N., additional, Wang, Andrew, additional, and Dixit, Vishwa Deep, additional

Published
2020
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12. Aging induces Nlrp3 inflammasome dependent adipose B cell expansion to impair metabolic homeostasis

Author

Camell, Christina D., primary, Lee, Aileen, additional, Günther, Patrick, additional, Goldberg, Emily L., additional, Spadaro, Olga, additional, Youm, Yun-Hee, additional, Bartke, Andrzej, additional, Hubbard, Gene B., additional, Ikeno, Yuji, additional, Ruddle, Nancy H., additional, Schultze, Joachim, additional, and Dixit, Vishwa Deep, additional

Published
2019
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19. Cysteine depletion triggers adipose tissue thermogenesis and weight-loss.

Author

Lee AH, Orliaguet L, Youm YH, Maeda R, Dlugos T, Lei Y, Coman D, Shchukina I, Andhey S, Smith SR, Ravussin E, Stadler K, Hyder F, Artyomov MN, Sugiura Y, and Dixit VD

Abstract

Dietary interventions such as caloric restriction (CR) 1 and methionine restriction 2 that prolong lifespan induce the 'browning' of white adipose tissue (WAT), an adaptive metabolic response that increases heat production to maintain health 3,4 . However, how diet influences adipose browning and metabolic health is unclear. Here, we identified that weight-loss induced by CR in humans 5 reduces cysteine concentration in WAT suggesting depletion of this amino-acid may be involved in metabolic benefits of CR. To investigate the role of cysteine on organismal metabolism, we created a cysteine-deficiency mouse model in which dietary cysteine was eliminated and cystathionine γ-lyase (CTH) 6 , the enzyme that synthesizes cysteine was conditionally deleted. Using this animal model, we found that systemic cysteine-depletion causes drastic weight-loss with increased fat utilization and browning of adipose tissue. The restoration of dietary cysteine in cysteine-deficient mice rescued weight loss together with reversal of adipose browning and increased food-intake in an on-demand fashion. Mechanistically, cysteine deficiency induced browning and weight loss is dependent on sympathetic nervous system derived noradrenaline signaling via β3-adrenergic-receptors and does not require UCP1. Therapeutically, in high-fat diet fed obese mice, one week of cysteine-deficiency caused 30% weight-loss and reversed inflammation. These findings thus establish that cysteine is essential for organismal metabolism as removal of cysteine in the host triggers adipose browning and rapid weight loss.

Published
2024
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21. Ketogenesis restrains aging-induced exacerbation of COVID in a mouse model.

Author

Ryu S, Shchukina I, Youm YH, Qing H, Hilliard BK, Dlugos T, Zhang X, Yasumoto Y, Booth CJ, Fernández-Hernando C, Suárez Y, Khanna KM, Horvath TL, Dietrich MO, Artyomov MN, Wang A, and Dixit VD

Abstract

Increasing age is the strongest predictor of risk of COVID-19 severity. Unregulated cytokine storm together with impaired immunometabolic response leads to highest mortality in elderly infected with SARS-CoV-2. To investigate how aging compromises defense against COVID-19, we developed a model of natural murine beta coronavirus (mCoV) infection with mouse hepatitis virus strain MHV-A59 (mCoV-A59) that recapitulated majority of clinical hallmarks of COVID-19. Aged mCoV-A59-infected mice have increased mortality and higher systemic inflammation in the heart, adipose tissue and hypothalamus, including neutrophilia and loss of γδ T cells in lungs. Ketogenic diet increases beta-hydroxybutyrate, expands tissue protective γδ T cells, deactivates the inflammasome and decreases pathogenic monocytes in lungs of infected aged mice. These data underscore the value of mCoV-A59 model to test mechanism and establishes harnessing of the ketogenic immunometabolic checkpoint as a potential treatment against COVID-19 in the elderly., Highlights: - Natural MHV-A59 mouse coronavirus infection mimics COVID-19 in elderly.- Aged infected mice have systemic inflammation and inflammasome activation.- Murine beta coronavirus (mCoV) infection results in loss of pulmonary γδ T cells.- Ketones protect aged mice from infection by reducing inflammation., Etoc Blurb: Elderly have the greatest risk of death from COVID-19. Here, Ryu et al report an aging mouse model of coronavirus infection that recapitulates clinical hallmarks of COVID-19 seen in elderly. The increased severity of infection in aged animals involved increased inflammasome activation and loss of γδ T cells that was corrected by ketogenic diet.

Published
2020
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