Your search keyword '"Yoon, Seul Gi"' showing total 10 results

1. Intrinsic expression of viperin regulates thermogenesis in adipose tissues

Author

Eom, John, Kim, Jeong Jin, Yoon, Seul Gi, Jeong, Haengdueng, Son, Soojin, Lee, Jae Bong, Yoo, Jihye, Seo, Hyun Ju, Cho, Yejin, Kim, Ku Sul, Choi, Kyung Mi, Kim, Il Yong, Lee, Hui-Young, Nam, Ki Taek, Cresswell, Peter, Seong, Je Kyung, and Seo, Jun-Young

Published

2019

2. Anti-obesity effect of taurine through inhibition of adipogenesis in white fat tissue but not in brown fat tissue in a high-fat diet-induced obese mouse model

Author

Kim, Kyoung Soo, Jang, Min Ju, Fang, Sungsoon, Yoon, Seul Gi, Kim, Il Yong, Seong, Je Kyung, Yang, Hyung-In, and Hahm, Dae Hyun

Published

2019

3. Ventromedial hypothalamic primary cilia control energy and skeletal homeostasis

Author

Sun, Ji Su, Yang, Dong Joo, Kinyua, Ann W., Yoon, Seul Gi, Seong, Je Kyung, Kim, Juwon, Moon, Seok Jun, Shin, Dong Min, Choi, Yun-Hee, and Kim, Ki Woo

Subjects

Physiological research, Homeostasis -- Research, Biological control systems -- Research, Hypothalamus -- Physiological aspects, Health care industry

Abstract

Dysfunction of primary cilia is related to dyshomeostasis, leading to a wide range of disorders. The ventromedial hypothalamus (VMH) is known to regulate several homeostatic processes, but those modulated specifically by VMH primary cilia are not yet known. In this study, we identify VMH primary cilia as an important organelle that maintains energy and skeletal homeostasis by modulating the autonomic nervous system. We established loss-of-function models of primary cilia in the VMH by either targeting IFT88 (IFT88-K[O.sup.SF-1]) using steroidogenic factor 1-Cre (SF-1-Cre) or injecting an adeno-associated virus Cre (AAV-Cre) directly into the VMH. Functional impairments of VMH primary cilia were linked to decreased sympathetic activation and central leptin resistance, which led to marked obesity and bone-density accrual. Obesity was caused by hyperphagia, decreased energy expenditure, and blunted brown fat function and was also associated with insulin and leptin resistance. The effect of bone-density accrual was independent of obesity, as it was caused by decreased sympathetic tone resulting in increased osteoblastic and decreased osteoclastic activities in the IFT88-K[O.sup.SF-1] and VMH primary cilia knockdown mice. Overall, our current study identifies VMH primary cilia as a critical hypothalamic organelle that maintains energy and skeletal homeostasis., Introduction Homeostatic regulation in the CNS is a complex process that is critical for systemic physiological balance. Therefore, identifying the brain systems integrating internal and external signals is paramount to [...]

Published

2021

4. The Effect of Mesenchymal Stem Cells on Dry Eye in Sjogren Syndrome Mouse Model.

Author

Shin, Soojung, Yoon, Seul-Gi, Kim, Miso, Cheon, Eun Jeong, Jeon, Youngseo, Lee, Hyun Jung, and Chung, So-Hyang

Subjects

*MESENCHYMAL stem cells, *DRY eye syndromes, *B cells, *ELECTRIC batteries, *LACRIMAL apparatus, *MOUTH, *LABORATORY mice

Abstract

Sjögren's syndrome (SS) is a systemic autoimmune disease delineated by chronic lymphocytic infiltrates into the lacrimal or salivary glands, leading to severe dry eye and dry mouth. Mesenchymal stem cells have been shown to be effective in treating numerous autoimmune diseases. This study aimed to illustrate the effects of mesenchymal stem cells on the attenuation of dry eyes (DE) through the inhibition of autophagy markers in a SS mouse model. NOD/ShiLtJ female mice with developed DE were treated with either subconjunctival or lacrimal gland injections of hMSCs (Catholic MASTER Cells). After maintenance for 14 days, clinical DE markers such as tear secretion and corneal staining were observed, as well as goblet cell counts in the conjunctiva, infiltration of inflammatory foci, B and T cells, and autophagy markers in the lacrimal glands. Proinflammatory cytokine expressions of the cornea and conjunctiva, as well as the lacrimal glands, were examined. Clinical markers, such as tear secretion and corneal stain scores, goblet cell counts in the conjunctiva, and foci infiltrations in the lacrimal glands were attenuated in mice treated with subconjunctival or lacrimal gland injections of hMSCs compared to the PBS-treated control group. B cell marker B220 decreased in the lacrimal glands of hMSCs-treated mice, as well as reduced proinflammatory cytokine expressions in the lacrimal glands and cornea. Notably, expression of autophagy markers ATG5 and LC3B-II, as well as HIF-1α and mTOR which play roles in the pathways of autophagy modulation, were shown to be attenuated in the lacrimal glands of hMSCs-treated mice compared to the PBS-treated control mice. Treatment with hMSCs by lacrimal gland or subconjunctival injection demonstrated the alleviation of DE through the repression of autophagy markers, suggesting the therapeutic potentials of hMSCs in a SS mouse model. [ABSTRACT FROM AUTHOR]

Published

2023

5. RNF20 Functions as a Transcriptional Coactivator for PPARγ by Promoting NCoR1 Degradation in Adipocytes.

Author

Yong Geun Jeon, Jae Ho Lee, Yul Ji, Jee Hyung Sohn, Dabin Lee, Dong Wook Kim, Seul Gi Yoon, Kyung Cheul Shin, Jeu Park, Je Kyung Seong, Je-Yoel Cho, Sung Sik Choe, Jae Bum Kim, Jeon, Yong Geun, Lee, Jae Ho, Ji, Yul, Sohn, Jee Hyung, Lee, Dabin, Kim, Dong Wook, and Yoon, Seul Gi

Subjects

FAT cells, ADIPOSE tissues, TISSUE expansion, INSULIN resistance, BIOLOGY, PROTEIN metabolism, ANIMAL experimentation, COMPARATIVE studies, ANIMAL nutrition, ENZYMES, EPITHELIAL cells, RESEARCH methodology, MEDICAL cooperation, METABOLISM, MICE, OBESITY, PROTEINS, RESEARCH, EVALUATION research

Abstract

Adipose tissue is the key organ coordinating whole-body energy homeostasis. Although it has been reported that ring finger protein 20 (RNF20) regulates lipid metabolism in the liver and kidney, the roles of RNF20 in adipose tissue have not been explored. Here, we demonstrate that RNF20 promotes adipogenesis by potentiating the transcriptional activity of peroxisome proliferator-activated receptor-γ (PPARγ). Under normal chow diet feeding, Rnf20 defective (Rnf20+/- ) mice exhibited reduced fat mass with smaller adipocytes compared with wild-type littermates. In addition, high-fat diet-fed Rnf20+/- mice alleviated systemic insulin resistance accompanied by a reduced expansion of fat tissue. Quantitative proteomic analyses revealed significantly decreased levels of PPARγ target proteins in adipose tissue of Rnf20+/- mice. Mechanistically, RNF20 promoted proteasomal degradation of nuclear corepressor 1 (NCoR1), which led to stimulation of the transcriptional activity of PPARγ. Collectively, these data suggest that RNF20-NCoR1 is a novel axis in adipocyte biology through fine-tuning the transcriptional activity of PPARγ. [ABSTRACT FROM AUTHOR]

Published

2020

6. Primary cilia regulate adaptive responses to fasting.

Author

Yang, Dong Joo, Tran, Le Trung, Yoon, Seul Gi, Seong, Je Kyung, Shin, Dong Min, Choi, Yun-Hee, and Kim, Ki Woo

Subjects

CILIA & ciliary motion, LEPTIN receptors, WEIGHT loss, LEPTIN, BODY weight, ELECTROPHYSIOLOGY, HOMEOSTASIS

Abstract

Neuronal primary cilia are known to be a required organelle for energy balance and leptin action. However, whether primary cilia directly mediate adaptive responses during starvation is yet unknown. Therefore, we investigated the counterregulatory roles of primary cilia, and their related leptin action in energy-depleted condition. We generated leptin receptor (LepR) neuron-specific primary cilia knockout (Ift88 KOLepR) mice. Leptin-mediated electrophysiological properties of the neurons in fasting condition were assessed using patch-clamp technique. Adaptive responses and neuroendocrine reflexes were measured by monitoring counterregulatory hormones. In fasting state, the leptin-induced neuronal excitability and leptin homeostasis were impaired in Ift88 KOLepR. In addition, the Ift88 KOLepR exhibited aberrant fasting responses including lesser body weight loss, decreased energy expenditure, and lower heat generation compared to wild-type littermates. Furthermore, the primary cilia in LepR neurons are necessary for counterregulatory responses and leptin-mediated neuroendocrine adaptation to starvation. Our results demonstrated that the neuronal primary cilia are crucial neuronal components mediating the adaptive counterregulatory responses to starvation. [Display omitted] • Leptin homeostasis is impaired in fasted Ift88 KOLepR mice. • Primary cilia are required for leptin-mediated neuronal excitability. • Primary cilia in LepR neurons are required for counterregulatory fasting responses. • Primary cilia in LepR neurons are necessary for neuroendocrine reflexes to fasting. [ABSTRACT FROM AUTHOR]

Published

2022

7. Loss of the E3 ubiquitin ligase MKRN1 represses diet-induced metabolic syndrome through AMPK activation.

Author

Lee, Min-Sik, Han, Hyun-Ji, Han, Su Yeon, Kim, Il Young, Chae, Sehyun, Lee, Choong-Sil, Kim, Sung Eun, Yoon, Seul Gi, Park, Jun-Won, Kim, Jung-Hoon, Shin, Soyeon, Jeong, Manhyung, Ko, Aram, Lee, Ho-Young, Oh, Kyoung-Jin, Lee, Yun-Hee, Bae, Kwang-Hee, Koo, Seung-Hoi, Kim, Jea-woo, and Seong, Je Kyung

Abstract

AMP-activated protein kinase (AMPK) plays a key role in controlling energy metabolism in response to physiological and nutritional status. Although AMPK activation has been proposed as a promising molecular target for treating obesity and its related comorbidities, the use of pharmacological AMPK activators has been met with contradictory therapeutic challenges. Here we show a regulatory mechanism for AMPK through its ubiquitination and degradation by the E3 ubiquitin ligase makorin ring finger protein 1 (MKRN1). MKRN1 depletion promotes glucose consumption and suppresses lipid accumulation due to AMPK stabilisation and activation. Accordingly, MKRN1-null mice show chronic AMPK activation in both liver and adipose tissue, resulting in significant suppression of diet-induced metabolic syndrome. We demonstrate also its therapeutic effect by administering shRNA targeting MKRN1 into obese mice that reverses non-alcoholic fatty liver disease. We suggest that ubiquitin-dependent AMPK degradation represents a target therapeutic strategy for metabolic disorders. AMPK activation has been suggested as treatment for obesity and its complications. Here the authors show that the ubiquitin ligase MKRN1 binds to AMPK and mediates its ubiquitination and degradation. Loss of MKRN1 leads to AMPK activation, increased glucose consumption and decreased lipid accumulation. [ABSTRACT FROM AUTHOR]

Published

2018

8. FoxO1 in dopaminergic neurons regulates energy homeostasis and targets tyrosine hydroxylase.

Author

Doan, Khanh V., Kinyua, Ann W., Yang, Dong Joo, Ko, Chang Mann, Moh, Sang Hyun, Shong, Ko Eun, Kim, Hail, Park, Sang-Kyu, Kim, Dong-Hoon, Kim, Inki, Paik, Ji-Hye, DePinho, Ronald A., Yoon, Seul Gi, Kim, Il Yong, Seong, Je Kyung, Choi, Yun-Hee, and Kim, Ki Woo

Published

2016

9. Ventromedial hypothalamic primary cilia control energy and skeletal homeostasis.

Author

Ji Su Sun, Dong Joo Yang, Ann W. Kinyua, Seul Gi Yoon, Je Kyung Seong, Juwon Kim, Seok Jun Moon, Dong Min Shin, Yun-Hee Choi, Ki Woo Kim, Sun, Ji Su, Yang, Dong Joo, Kinyua, Ann W, Yoon, Seul Gi, Seong, Je Kyung, Kim, Juwon, Moon, Seok Jun, Shin, Dong Min, Choi, Yun-Hee, and Kim, Ki Woo

Subjects

*CILIA & ciliary motion, *HOMEOSTASIS, *AUTONOMIC nervous system, *HYPOTHALAMUS, *BROWN adipose tissue, *CELL metabolism, *BONE metabolism, *PROTEIN metabolism, *ENERGY metabolism, *PROTEINS, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *THALAMUS, *COMPARATIVE studies, *CELLS, *MICE

Abstract

Dysfunction of primary cilia is related to dyshomeostasis, leading to a wide range of disorders. The ventromedial hypothalamus (VMH) is known to regulate several homeostatic processes, but those modulated specifically by VMH primary cilia are not yet known. In this study, we identify VMH primary cilia as an important organelle that maintains energy and skeletal homeostasis by modulating the autonomic nervous system. We established loss-of-function models of primary cilia in the VMH by either targeting IFT88 (IFT88-KOSF-1) using steroidogenic factor 1-Cre (SF-1-Cre) or injecting an adeno-associated virus Cre (AAV-Cre) directly into the VMH. Functional impairments of VMH primary cilia were linked to decreased sympathetic activation and central leptin resistance, which led to marked obesity and bone-density accrual. Obesity was caused by hyperphagia, decreased energy expenditure, and blunted brown fat function and was also associated with insulin and leptin resistance. The effect of bone-density accrual was independent of obesity, as it was caused by decreased sympathetic tone resulting in increased osteoblastic and decreased osteoclastic activities in the IFT88-KOSF-1 and VMH primary cilia knockdown mice. Overall, our current study identifies VMH primary cilia as a critical hypothalamic organelle that maintains energy and skeletal homeostasis. [ABSTRACT FROM AUTHOR]

Published

2021

10. Improvement in neurogenesis and memory function by administration of Passiflora incarnata L. extract applied to sleep disorder in rodent models.

Author

Kim, Gwang-Ho, Lim, Kyunghyun, Yang, Hae Sung, Lee, Ji-Kwang, Kim, Yehlim, Park, Sang-Kyu, Kim, So-Hyeon, Park, Suhyeon, Kim, Tae-Hee, Moon, Jong-Seok, Hwang, In Koo, Yoon, Yeo Sung, Seo, Hyung Seok, Nam, Sung Min, Kim, Mi-Yeon, Yoon, Seul Gi, Seong, Je Kyung, and Yi, Sun Shin

Subjects

*SLEEP disorders, *SPRAGUE Dawley rats, *DERMATOPHAGOIDES, *BRAIN degeneration, *ALZHEIMER'S disease, *ALZHEIMER'S disease prevention, *PASSIFLORA

Abstract

• Sleep disturbance must be an important issue that has a profound impact on the quality and satisfaction of everyday human life. • The accumulation of persistent sleep disorders increases the risk of dementia and degenerative brain disease such as Alzheimer' disease. • We found Passiflora incarnata L. (PF) extract lead inducing sleepness and hippocampal neurogenesis. • These findings suggest the use of PF has found evidences of memory improvement and resistance to Alzheimer's disease. • There was no significant metabolic change in the results, therefore, we expect PF can have multi-functions to patients suffering from insomnia. Recently, there have been reports that chronic insomnia acts as an insult in the brain, causing memory loss through the production of ROS, inflammation, and, Alzheimer's disease if persistent. Insomnia remains the leading cause of sleep disturbance and as such has serious implications for public health. Patients with Alzheimer's disease are also known to suffer from severe sleep disturbance. Meanwhile, vitexin is a key ingredient in Passiflora incarnata L (passion flower, PF) extract, which is known to help with sleep. This medicinal plant has been used as a folk remedy for sedation, anxiety and sleep since centuries ago, but the standardization work has not been done and the extent of the effect has not been clearly demonstrated. For this reason, we tried to test the possibility that repeated administration of PF could improve the memory by promoting hippocampal neurogenesis at the DBA/2 mice known have inherited sleep disorders, as well as preventive effects of Alzheimer's disease. Here, we found that vitexin, which is the main bioactive component of ethanol extracts from leaves and fruits (ratio; 8:2) of PF, confirmed the improvement of neurogenesis (DCX) of DBA/2 mice repeated PF oral administration by immunohistochemistry (IHC) and western blot analysis. PF-treated group showed increased the neurotrophic factor (BDNF) in the hippocampus compared with that of vehicle-treated group, but the inflammation markers Iba-1 (microglial marker) and COX-2 were inconsistent between the groups. However, we found COX-2 signal is essential for hippocampal neurogenesis according to the additional IHC experiments using COX-2 inhibitor and pIkappaB have shown. In addition, although prescription sleeping pills have been reported to show significant changes in appetite and metabolic rate from time to time, no changes in the feeding behavior, body weight, metabolic rate and body composition of the animals were observed by administration of PF. Interestingly, we found that short-term oral administration of PF displayed improved memory according to the water maze test. Quantitative analysis of Tau protein, which is a marker of Alzheimer's disease, was performed in the SD rats and DBA/2 mice by repeated PF oral administration and pTau/Tau values were significantly decreased in PF-treated group than vehicle-treated group. In conclusion, our results suggest that PF lead high hippocampal neurogenesis in the animals even in inherited sleep-disturbed animals. The increased hippocampal neurogenesis functionally enhanced memory and learning functions by repeated PF oral administration. These results identify PF as a potential therapy for enhancing memory functions and prevention of Alzheimer's disease through actions on the hippocampus. [ABSTRACT FROM AUTHOR]

Published

2019