Your search keyword '"Youngsup Song"' showing total 26 results

1. Engineering small‐molecule analogues of altiratinib via CREB‐regulated transcription co‐activator 3‐target screening for the development of potent and safe topical therapeutics against skin hyperpigmentary diseases

Author

Jeong Hyeon Lee, Hongchan An, HyeJi Kwon, Su‐Jeong Lee, Young Hye Park, Ji Sun Hwang, Min Young Kim, Hayoung Hwang, Jeong Yoon Kim, Seung Jin Lee, Sung Eun Chang, and Youngsup Song

Subjects

Medicine (General), R5-920

Published

2024

2. Enhanced Laplace Pressures for Functional Surfaces: Wicking, Switchability, and Selectivity

Author

Kyle L. Wilke, Youngsup Song, Zhengmao Lu, and Evelyn N. Wang

Subjects

hydrophilic, hydrophobic, reentrant structures, selective wetting, switchable wetting, Physics, QC1-999, Technology

Abstract

Abstract Wetting functionalities of rough surfaces are largely determined by the Laplace pressure generated across liquid–gas interfaces formed within surface structures. Typically, rough wetting surfaces create negative Laplace pressures, enabling capillary wicking, while rough non‐wetting surfaces create positive Laplace pressures, exhibiting fluid repellency. Here, with microfabricated reentrant structures, it is shown that the same surface can exhibit either a negative or positive Laplace pressure, regardless of its intrinsic wettability. This material‐independent Laplace pressure duality enables or enhances a range of wetting functionalities including wicking, switchability, and selectivity. On the same surface, capillary rise, capillary dip, and the combination of the two which leads to further enhancement of the total sustainable capillary height and Laplace pressure, the driving force for wicking is demonstrated. Further, active switching of wetting states between the hemiwicking and the repellent Cassie state on reentrant structures is shown. Moreover, with a water‐hexane mixture system, selective wetting of reentrant structures are demonstrated, that is, water can be selectively wicked or repelled in the presence of hexane, and vice versa. These functionalities are achieved, which would typically require complex chemical coatings, solely using surface structures, thus largely expanding the design space for a wide range of thermofluidic applications.

Published

2023

3. Role of redox-sensitive catalytic interaction with ADAM10 in mutant-selective extracellular shedding of prion protein

Author

Yejin Shin, Kang-Sug Jo, Minseok Shin, Duri Lee, Hyejin Yeo, Youngsup Song, and Sang-Wook Kang

Subjects

Protein quality control, Protein shedding, Prion protein, ADAM10, Redox, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Misfolded glycosylphosphatidylinositol-anchored prion protein (PrP) is primarily degraded in lysosomes but is often rapidly removed from the cell surface before endocytosis in a preemptive manner. However, this mechanism is poorly understood. In this study, we discovered a disease-causing prion mutation (Q212P) that exceptionally promoted the extracellular release of PrP. Spatiotemporal analyses combined with genome editing identified the role of sheddase ADAM10 in Q212P shedding from the cell surface. ADAM10 was observed to catalytically interacts with Q212P but non-catalytically with wild-type PrP (wtPrP). This intrinsic difference in the interaction of ADAM10 between Q212P and wtPrP allowed Q212P to selectively access the sheddase activity of ADAM10 in a redox-sensitive manner. In addition, redox perturbation instigated the latent misfolding propensity of Q212P and disrupted the catalytic interaction between PrP and ADAM10, resulting in the accumulation of misfolded PrP on the cell surface. Upon recovery, active ADAM10 was able to reversibly release the surface Q212P. However, it might prove detrimental if unregulated resulting in unexpected proteotoxicity. This study provides a molecular basis of the mutant-selective shedding of PrP by demonstrating the catalytic interaction of ADAM10 with Q212P.

Published

2022

4. Anti-melanogenic property of ginsenoside Rf from Panax ginseng via inhibition of CREB/MITF pathway in melanocytes and ex vivo human skin

Author

Ha-Ri Lee, Joon Min Jung, Ji-Yeon Seo, Sung Eun Chang, and Youngsup Song

Subjects

Panax ginseng, anti-pigmentation agent, CREB/MITF pathway, ginsenoside Rf, Botany, QK1-989

Abstract

Background: Ginsenosides of Panax ginseng are used to enhance skin health and beauty. The present study aimed to investigate the potential use of ginsenoside Rf (Rf) from Panax ginseng as a new anti-pigmentation agent. Methods: The anti-melanogenic effects of Rf were explored. The transcriptional activity of the cyclic adenosine monophosphate (cAMP) response element binding protein (CREB) and the expression levels of tyrosinase, microphthalmia-associated transcription factor (MITF), and tyrosinase-related proteins (Tyrps) were evaluated in melanocytes and UV-irradiated ex vivo human skin. Results: Rf significantly inhibited Forskolin (FSK) or UV-stimulated melanogenesis. Consistently, cellular tyrosinase activity and levels of MITF, tyrosinase, and Tyrps were downregulated. Furthermore, Rf suppressed MITF promoter activity, which was stimulated by FSK or CREB-regulated transcription coactivator 3 (CRTC3) overexpression. Increased CREB phosphorylation and protein kinase A (PKA) activity induced by FSK were also mitigated in the presence of Rf. Conclusion: Rf can be used as a reliable anti-pigmentation agent, which has a scientifically confirmed and reproducible action mechanism, via inhibition of CREB/MITF pathway.

Published

2021

5. BCI-215, a Dual-Specificity Phosphatase Inhibitor, Reduces UVB-Induced Pigmentation in Human Skin by Activating Mitogen-Activated Protein Kinase Pathways

Author

Jeong Hyeon Lee, Myoung Eun Choi, Hongchan An, Ju Won Moon, Hye Jin Yeo, Youngsup Song, and Sung Eun Chang

Subjects

BCI-215, dual-specificity phosphatase, melanogenesis, mitogen-activated protein kinase, ultraviolet radiation, Organic chemistry, QD241-441

Abstract

Background: The dysregulation of melanin production causes skin-disfiguring ultraviolet (UV)-associated hyperpigmented spots. Previously, we found that the activation of c-Jun N-terminal kinase (JNK), a mitogen-activated protein kinase (MAPK), inhibited melanogenesis. Methods: We selected BCI-215 as it may modify MAPK expression via a known function of a dual-specificity phosphatase (DUSP) 1/6 inhibitor. B16F10 melanoma cells, Mel-ab cells, human melanocytes, and a coculture were used to assess the anti-melanogenic activity of BCI-215. The molecular mechanisms were deciphered by assaying the melanin content and cellular tyrosinase activity via immunoblotting and RT-PCR. Results: BCI-215 was found to suppress basal and cAMP-stimulated melanin production and cellular tyrosinase activity in vitro through the downregulation of microphthalmia-associated transcription factor (MITF) protein and its downstream enzymes. The reduction in MITF expression caused by BCI-215 was found to be due to all three types of MAPK activation, including extracellular signal-regulated kinase (ERK), JNK, and p38. The degree of activation was greater in ERK. A phosphorylation of the β-catenin pathway was also demonstrated. The melanin index, expression of MITF, and downstream enzymes were well-reduced in UVB-irradiated ex vivo human skin by BCI-215. Conclusions: As BCI-215 potently inhibits UV-stimulated melanogenesis, small molecules of DUSP-related signaling modulators may provide therapeutic benefits against pigmentation disorders.

Published

2022

6. Skeletal Muscle Tissue Trib3 Links Obesity with Insulin Resistance by Autophagic Degradation of AKT2

Author

Minseo Kwon, Ji Eom, Donghwan Kim, Jinhwan Kim, Jose Heredia, Sang-Wook Kang, and Youngsup Song

Subjects

Tribbles, AKT2, Obesity, Insulin resistance, Autophagy, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Obesity is a serious health risk factor strongly associated with insulin resistance and type 2 diabetes; however, the underlying mechanisms associating obesity with insulin resistance remain unknown. In this study, we explored the physiological role of Trib3 in regulating glucose metabolism in skeletal muscle tissues in a Trib3 transgenic mice model. Methods: Glucose metabolism in transgenic mice overexpressing Trib3 specifically in the skeletal muscle was examined by glucose/insulin tolerance test, metabolic cage studies, and glucose uptake assay. The effect of Trib3 overexpression on AKT phosphorylation and AKT protein turnover were assessed by RT-PCR and immunoblot analysis. Subcellular distribution of Trib3 and AKT1/2 was determined by microscopic analysis, co-immunoprecipitation experiments, and limited-detergent extraction of subcellular organelles. Ubiquitin assay was performed and ATG7 deficient cell line was employed to address the mechanisms of Trib3-dependent AKT protein homeostasis. Results: We found that Trib3 expression in skeletal muscle is elevated in obese conditions, and transgenic mice that overexpressed Trib3, specifically in skeletal muscle tissues, displayed impaired glucose homeostasis by suppressing insulin-stimulated glucose uptake. Disruption of insulin signaling in skeletal muscle Trib3 transgenic mice may occur due to the specific downregulation of AKT2 but not AKT1. Autophagy regulated AKT2 protein turnover, and Trib3 overexpression stimulated autophagic degradation of AKT2 by promoting AKT2 ubiquitination. Conclusion: Because diet-induced obesity upregulates Trib3 and downregulates AKT2 in skeletal muscle tissues, Trib3 may play a key role in establishing an association between obesity and insulin resistance by regulating AKT2 protein homeostasis.

Published

2018

7. Ursodeoxycholic Acid May Inhibit Environmental Aging-Associated Hyperpigmentation

Author

Ik Jun Moon, Hanju Yoo, Seung Hwan Paik, Hak Tae Kim, Su Yeon Kim, Youngsup Song, and Sung Eun Chang

Subjects

ursodeoxycholic acid, antioxidant, photoaging, environmental aging, particulate matter, hyperpigmentation, Therapeutics. Pharmacology, RM1-950

Abstract

Extrinsic aging of the skin caused by ultraviolet (UV) light or particulate matter is often manifested by hyperpigmentation due to increased melanogenesis in senescent skin. Ursodeoxycholic acid (UDCA), which has been commonly used as a health remedy for liver diseases, is known to possess antioxidant properties. This study was done to investigate whether UDCA inhibits cellular aging processes in the cells constituting human skin and it reduces melanin synthesis. ROS, intracellular signals, IL-1α, IL-8, TNF-α, cyclooxygenase (COX)-2, type I collagen, and matrix metalloproteinases (MMPs) levels were measured in human dermal fibroblasts treated with or without UDCA after UV exposure. Melanin levels and mechanistic pathways for melanogenesis were investigated. UDCA decreased ROS, senescence-associated secretory phenotype (SASP), and proinflammatory cytokines induced by UV treatment. UDCA reduced melanogenesis in normal human melanocytes cocultured with skin constituent cells. Our results suggest that UDCA could be a comprehensive agent for the treatment of environmental aging-associated hyperpigmentation disorders.

Published

2021

8. Guanine Deaminase in Human Epidermal Keratinocytes Contributes to Skin Pigmentation

Author

Joon Min Jung, Tai Kyung Noh, Soo Youn Jo, Su Yeon Kim, Youngsup Song, Young-Hoon Kim, and Sung Eun Chang

Subjects

guanine deaminase, melanogenesis, UV radiation, Organic chemistry, QD241-441

Abstract

Epidermal keratinocytes are considered as the most important neighboring cells that modify melanogenesis. Our previous study used microarray to show that guanine deaminase (GDA) gene expression is highly increased in melasma lesions. Hence, we investigated the role of GDA in skin pigmentation. We examined GDA expression in post-inflammatory hyperpigmentation (PIH) lesions, diagnosed as Riehl’s melanosis. We further investigated the possible role of keratinocyte-derived GDA in melanogenesis by quantitative PCR, immunofluorescence staining, small interfering RNA-based GDA knockdown, and adenovirus-mediated GDA overexpression. We found higher GDA positivity in the hyperpigmentary lesional epidermis than in the perilesional epidermis. Both UVB irradiation and stem cell factor (SCF) plus endothelin-1 (ET-1) were used, which are well-known melanogenic stimuli upregulating GDA expression in both keratinocyte culture alone and keratinocyte and melanocyte coculture. GDA knockdown downregulated melanin content, while GDA overexpression promoted melanogenesis in the coculture. When melanocytes were treated with UVB-exposed keratinocyte-conditioned media, the melanin content was increased. Also, GDA knockdown lowered SCF and ET-1 expression levels in keratinocytes. GDA in epidermal keratinocytes may promote melanogenesis by upregulating SCF and ET-1, suggesting its role in skin hyperpigmentary disorders.

Published

2020

9. Protein Translocation Acquires Substrate Selectivity Through ER Stress-Induced Reassembly of Translocon Auxiliary Components

Author

Sohee Lee, Yejin Shin, Kyunggon Kim, Youngsup Song, Yongsub Kim, and Sang-Wook Kang

Subjects

protein translocation, protein quality control, prion protein, er stress, redox homeostasis, Cytology, QH573-671

Abstract

Protein import across the endoplasmic reticulum membrane is physiologically regulated in a substrate-selective manner to ensure the protection of stressed ER from the overload of misfolded proteins. However, it is poorly understood how different types of substrates are accurately distinguished and disqualified during translocational regulation. In this study, we found poorly assembled translocon-associated protein (TRAP) complexes in stressed ER. Immunoaffinity purification identified calnexin in the TRAP complex in which poor assembly inhibited membrane insertion of the prion protein (PrP) in a transmembrane sequence-selective manner, through translocational regulation. This reaction was induced selectively by redox perturbation, rather than calcium depletion, in the ER. The liberation of ERp57 from calnexin appeared to be the reason for the redox sensitivity. Stress-independent disruption of the TRAP complex prevented a pathogenic transmembrane form of PrP (ctmPrP) from accumulating in the ER. This study uncovered a previously unappreciated role for calnexin in assisting the redox-sensitive function of the TRAP complex and provided insights into the ER stress-induced reassembly of translocon auxiliary components as a key mechanism by which protein translocation acquires substrate selectivity.

Published

2020

10. Selective effect of phosphatidylcholine on the lysis of adipocytes.

Author

Ji-Young Kim, Min-Seo Kwon, Junghyun Son, Sang-Wook Kang, and Youngsup Song

Subjects

Medicine, Science

Abstract

Obesity, a serious health risk factor, is often associated with depression and negatively affects many aspects of life. Injection of a formula comprising phosphatidylcholine (PPC) and deoxycholate (DC) has emerged as an alternative to liposuction in the reduction of local fat deposits. However, the formula component mainly responsible for this effect and the mechanism behind the actions of the components with respect to fat reduction are unknown. Here, we investigate the specific effects of PPC and DC on adipocyte viability. When exposed to PPC or DC, 3T3L1 preadipocytes and differentiated adipocytes showed dose dependent decrease in cell viability. Interestingly, while DC mediated cell death was non-specific to both preadipocytes and adipocytes, PPC specifically induced a decrease in mature adipocyte viability, but had less effect on preadipocytes. Injection of PPC and DC into inguinal fat pads caused reduction in size. PPC injections preferentially decreased gene expression in mature adipocytes, while a strong inflammatory response was elicited by DC injection. In line with the decreased adipocyte viability, exposure of differentiated adipocytes to PPC resulted in triglyceride release, with a minimal effect on free fatty acids release, suggesting that its fat-reducing effect mediated mainly through the induction of adipocyte cell death rather than lipolysis. Taken together, it appears that PPC specifically affects adipocytes, and has less effect on preadipocyte viability. It can therefore be a promising agent to selectively reduce adipose tissue mass.

Published

2017

11. L-765,314 Suppresses Melanin Synthesis by Regulating Tyrosinase Activity

Author

Jinhwan Kim, Yo-Han Kim, Seunghyun Bang, Hanju Yoo, InKi Kim, Sung Eun Chang, and Youngsup Song

Subjects

L-765,314, protein kinase C, tyrosinase activity, depigmenting agents, Organic chemistry, QD241-441

Abstract

Although melanin production is a key self-defense mechanism against ultraviolet radiation (UVR)-induced skin damage, uneven or excessive deposition of melanin causes hyperpigmentary disorders. Currently available whitening agents are unsatisfactory because of issues with efficacy and safety. To develop more effective depigmenting agents, we performed high-throughput melanin content assay screening using the B16F10 melanoma cell line and identified L-765,314 as a drug that suppressed melanin production in cultured melanocytes in a dose-dependent manner as well as cAMP- or 12-O-tetradecanoylphorbol 13-acetate (TPA)-stimulated melanin production without cytotoxicity. Interestingly, melanogenic gene expression was not altered by L-765,314. Rather, diminished melanin production by L-765,314 appeared to be caused by downregulation of tyrosinase activity via inhibition of protein kinase C (PKC). Because L-765,314 did not show any adverse effect in melanocytes, altogether our data suggest that L-765,314 could be a potential therapeutic candidate for skin hyperpigmentary disorders and further discovery of selective inhibitors targeting PKC might be a promising strategy for the development of depigmenting agents to treat hyperpigmentary disorders.

Published

2019

12. Deformable Carbon Nanotube-Contact Pads for Inertial Microswitch to Extend Contact Time.

Author

Jae-Ik Lee, Youngsup Song, Hakkyun Jung, Jungwook Choi, Youngkee Eun, and Jongbaeg Kim

Published

2012

13. Temporal Evolution of Surface Contamination under Ultra-high Vacuum.

Author

Zhen Liu, Youngsup Song, Rajappan, Anoop, Wang, Evelyn N., and Preston, Daniel J.

Published

2022

14. Turning traditionally nonwetting surfaces wetting for even ultra-high surface energy liquids.

Author

Wilke, Kyle L., Zhengmao Lu, Youngsup Song, and Wang, Evelyn N.

Subjects

SURFACE energy, LIQUID surfaces, SURFACE tension, WETTING, SILICON surfaces

Abstract

We present a surface-engineering approach that turns all liquids highly wetting, including ultra-high surface tension fluids such as mercury. Previously, highly wetting behavior was only possible for intrinsically wetting liquid/material combinations through surface roughening to enable the so-called Wenzel and hemiwicking states, in which liquid fills the surface structures and causes a droplet to exhibit a low contact angle when contacting the surface. Here, we show that roughness made of reentrant structures allows for a metastable hemiwicking state even for nonwetting liquids. Our surface energy model reveals that with liquid filled in the structure, the reentrant feature creates a local energy barrier, which prevents liquid depletion from surface structures regardless of the intrinsic wettability. We experimentally demonstrated this concept with microfabricated reentrant channels. Notably, we show an apparent contact angle as low as 35° for mercury on structured silicon surfaces with fluorinated coatings, on which the intrinsic contact angle of mercury is 143°, turning a highly nonwetting liquid/material combination highly wetting through surface engineering. Our work enables highly wetting behavior for previously inaccessible material/liquid combinations and thus expands the design space for various thermofluidic applications. [ABSTRACT FROM AUTHOR]

Published

2022

15. CRTC3, a sensor and key regulator for melanogenesis, as a tunable therapeutic target for pigmentary disorders.

Author

Hanju Yoo, Ha-Ri Lee, Ki-Hyun Kim, Min-Ah Kim, Seunghyun Bang, Young-Ho Kang, Woo-hyung Kim, Youngsup Song, and Sung Eun Chang

Published

2021

16. NEDD4L limits cAMP signaling through ubiquitination of CREB-regulated transcription coactivator 3.

Author

Yo-Han Kim, Hanju Yoo, A-Reum Hong, Minseo Kwon, Sang-Wook Kang, Kyunggon Kim, and Youngsup Song

Published

2018

17. cAMP-inducible coactivator CRTC3 attenuates brown adipose tissue thermogenesis.

Author

Young-Sil Yoon, Wen-Wei Tsai, Van de Velde, Sam, Zhijiang Chen, Kuo-Fen Lee, Morgan, Donald A., Rahmouni, Kamal, Shigenobu Matsumura, Wiater, Ezra, Youngsup Song, and Montminy, Marc

Subjects

BROWN adipose tissue, INSULIN resistance, EXERCISE physiology, MICRORNA, ADIPONECTIN

Abstract

In response to cold exposure, placental mammals maintain body temperature by increasing sympathetic nerve activity in brown adipose tissue (BAT). Triggering of β-adrenergic receptors on brown adipocytes stimulates thermogenesis via induction of the cAMP/PKA pathway. Although cAMP response element-binding protein (CREB) and its coactivators--the cAMP-regulated transcriptional coactivators (CRTCs)--mediate transcriptional effects of cAMP in most tissues, other transcription factors such as ATF2 appear critical for induction of thermogenic genes by cAMP in BAT. Brown adipocytes arise from Myf5-positive mesenchymal cells under the control of PRDM16, a coactivator that concurrently represses differentiation along the skeletal muscle lineage. Here, we show that the CREB coactivator CRTC3 is part of an inhibitory feedback pathway that antagonizes PRDM16-dependent differentiation. Mice with a knockout of CRTC3 in BAT (BKO) have increased cold tolerance and reduced adiposity, whereas mice overexpressing constitutively active CRTC3 in adipose tissue aremore cold sensitive and have greater fatmass. CRTC3 reduced sympathetic nerve activity in BAT by up-regulating the expression of miR-206, a microRNA that promotes differentiation along the myogenic lineage and that we show here decreases the expression of VEGFA and neurotrophins critical for BAT innervation and vascularization. Sympathetic nerve activity to BAT was enhanced in BKO mice, leading to increases in catecholamine signaling that stimulated energy expenditure. As reexpression of miR-206 in BAT from BKO mice reversed the salutary effects of CRTC3 depletion on cold tolerance, our studies suggest that small-molecule inhibitors against this coactivator may provide therapeutic benefit to overweight individuals. [ABSTRACT FROM AUTHOR]

Published

2018

18. 31-mode piezoelectric micromachined ultrasonic transducer with PZT thick film by granule spraying in vacuum process.

Author

Joontaek Jung, Annapureddy, Venkateswarlu, Geon-Tae Hwang, Youngsup Song, Wonjun Lee, Woojin Kang, Jungho Ryu, and Hongsoo Choi

Subjects

PIEZOELECTRIC actuators, TRANSDUCERS, ELECTROMECHANICAL devices, ACOUSTIC impedance, SOUND waves

Abstract

A piezoelectric micromachined ultrasonic transducer (pMUT) is an ideal device for portable medical diagnosis systems, intravascular ultrasound systems, and ultrasonic cameras because of its favorable characteristics including small size, acoustic impedance matching with the body, low power consumption, and simple integration with the systems. Despite these advantages, practical applications are limited because of insufficient acoustic pressure of the pMUT caused by the thin active piezoelectric layer. Here, we report the fabrication of a thick piezoelectric Pb(Zr,Ti)O3 (PZT) film-based pMUT device having high deflection at low driving voltage using the granule spraying in vacuum (GSV) process. Pre-patterned high-density thick (exceeding 8 µm) PZT films were grown on 6-inch-diameter Si/SiO2/Ti/Pt silicon-on-insulator wafers at room temperature at a high deposition rate of ~5 µm min-1. The fabrication process using the proposed GSV process was simple and fast, and the de?ection of the pMUT exhibited a high value of 0.8 µm. [ABSTRACT FROM AUTHOR]

Published

2017

19. CRTC3 links catecholamine signalling to energy balance.

Author

Youngsup Song, Altarejos, Judith, Goodarzi, Mark O., Inoue, Hiroshi, Guo, Xiuqing, Berdeaux, Rebecca, Kim, Jeong-Ho, Goode, Jason, Igata, Motoyuki, Paz, Jose C., Hogan, Meghan F., Singh, Pankaj K., Goebel, Naomi, Vera, Lili, Miller, Nina, Cui, Jinrui, Jones, Michelle R., Chen, Yii-Der I., Taylor, Kent D., and Hsueh, Willa A.

Subjects

*CYCLIC adenylic acid, *PHYSIOLOGICAL effects of leptin, *FAT cells, *CALORIC expenditure, *CATECHOLAMINES, *INSULIN resistance, *OBESITY, *GENETICS

Abstract

The adipose-derived hormone leptin maintains energy balance in part through central nervous system-mediated increases in sympathetic outflow that enhance fat burning. Triggering of β-adrenergic receptors in adipocytes stimulates energy expenditure by cyclic AMP (cAMP)-dependent increases in lipolysis and fatty-acid oxidation. Although the mechanism is unclear, catecholamine signalling is thought to be disrupted in obesity, leading to the development of insulin resistance. Here we show that the cAMP response element binding (CREB) coactivator Crtc3 promotes obesity by attenuating β-adrenergic receptor signalling in adipose tissue. Crtc3 was activated in response to catecholamine signals, when it reduced adenyl cyclase activity by upregulating the expression of Rgs2, a GTPase-activating protein that also inhibits adenyl cyclase activity. As a common human CRTC3 variant with increased transcriptional activity is associated with adiposity in two distinct Mexican-American cohorts, these results suggest that adipocyte CRTC3 may play a role in the development of obesity in humans. [ABSTRACT FROM AUTHOR]

Published

2010

20. Pineal-specific agouti protein regulates teleost background adaptation.

Author

Chao Zhang, Youngsup Song, Thonipson, Darren A., Madonna, Michael A., Millhauser, Glenn L., Toro, Sabrina, varga, Zoltan, Westerfield, Monte, Gamse, Joshua, Wenbiao Chen, and Cone, Roger D.

Subjects

*PROTEINS, *AGOUTIS, *OSTEICHTHYES, *RETINA, *MESSENGER RNA

Abstract

Background adaptation is used by teleosts as one of a variety of camouflage mechanisms for avoidance of predation. Background adaptation is known to involve light sensing by the retina and subsequent regulation of melanophore dispersion or contraction in melanocytes, mediated by α-melanocyte-stimulating hormone and melanin-concentrating hormone, respectively. Here, we demonstrate that an agouti gene unique to teleosts, agrp2, is specifically expressed in the pineal and is required for up-regulation of hypothalamic pmch and prnchl mRNA and melanosome contraction in dermal melanocytes in response to a white background. floating head, a mutant with defective pineal development, exhibits defective up-regulation of mch mRNA5 by white background, whereas nrc, a blind mutant, exhibits a normal response. These studies identify a role for the pineal in background adaptation in teleosts, a unique physiological function for the agouti family of proteins, and define a neuroendocrine axis by which environmental background regulates pigmentation. [ABSTRACT FROM AUTHOR]

Published

2010

21. Creation of a genetic model of obesity in a teleost.

Author

Youngsup Song and Cone, Roger D.

Subjects

*FAT cells, *LIPIDS, *LEPTIN, *OBESITY, *HOMEOSTASIS, *LABORATORY mice

Abstract

The adipostat is the mechanism by which the brain detects and maintains constant levels of energy stored in adipocytes in the form of lipids. Key elements of the adipostat include the adipocyte-derived hormone leptin that is expressed in proportion to energy levels and serves to communicate this information to the central nervous system and the central circuits, which sense and respond to leptin. Blockade of one of these circuits, the central melanocortin system, disrupts leptin action and causes a distinct obesity syndrome in mice and humans, characterized by increased adiposity as well as increased linear growth. We show here that transgenic zebrafish overexpressing the endogenous melanocortin antagonist agouti-related protein (AgRP) also exhibit obesity, increased linear growth, and adipocyte hypertrophy. These findings demonstrate that key elements of the adipostat originated before the evolution of mammals. Furthermore, transgenic overexpression of AgRP in zebrafish yields a new model system for the genetic analysis of energy homeostasis in a simple vertebrate system. [ABSTRACT FROM AUTHOR]

Published

2007

22. Agouti-Related Protein (AGRP) Is Conserved and Regulated by Metabolic State in the Zebrafish, Danio rerio.

Author

Youngsup Song, Gregory Golling, Theresa L. Thacker, and Roger D. Cone

Subjects

PROTEINS, PROOPIOMELANOCORTIN, PITUITARY hormones, HOMEOSTASIS, AMINO acids, GENES

Abstract

Agouti-related protein (AGRP) and proopiomelanocortin (POMC) genes encode secreted hypothalamic factors regulated by metabolic state in mammals and are involved in energy homeostasis. The zebrafish, Danio rerio, is a model system for forward genetics in vertebrates: POMC and AGRP in this organism have not been well characterized. Toward this end, AGRP and POMC were cloned from zebrafish. Zebrafish AGRP cDNA encodes a 127-amino-acid protein 36% and 40% identical to human and mouse AGRP, respectively. Zebrafish POMC cDNA encodes a 222-amino-acid preprohormone. Sequence identity to the mammalian ortholog is about 50%. Zebrafish AGRP and POMC transcripts were detected at 24 h post-fertilization (hpf) by RTPCR, and in situ hybridization demonstrated zebrafish AGRP mRNA exclusively in hypothalamus and POMC mRNA in hypothalamus and pituitary. Fasting did not alter POMC transcript levels, while AGRP transcripts were significantly upregulated. The ratio of AGRP/POMC transcripts in adult brain was increased up to threefold by fasting. These results demonstrate that the melanocortin system is regulated by metabolic state in zebrafish, and this finding thus provides a vertebrate system for the genetic analysis of the role of the melanocortin system in energy homeostasis. [ABSTRACT FROM AUTHOR]

Published

2003

23. Tbx3 impinges on the p53 pathway to suppress apoptosis, facilitate cell transformation and block myogenic differentiation.

Author

Carlson, Hanqian, Ota, Sara, Youngsup Song, Yanwen Chen, and Hurlin, Peter J.

Subjects

TRANSCRIPTION factors, P53 antioncogene, SYNDROMES, CARCINOGENESIS

Abstract

Presents a study that investigated the role of Tbx3 in the p53 pathway to suppress apoptosis, facilitate cell transformation and block myogenic differentiation. Background on the Tbx family of transcription factors; Analysis of ulnar-mammary syndrome caused by mutations in Tbx3; Examination of the role of Tbx3 in tumorigenesis.

Published

2002

24. Thiol-disulfide status regulates quality control of prion protein at the plasma membrane.

Author

Duri Lee, Sohee Lee, Yejin Shin, Youngsup Song, and Sang-Wook Kang

Published

2019

25. A highly sensitive flexible strain sensor based on the contact resistance change of carbon nanotube bundles.

Author

Youngsup Song, Jae-Ik Lee, Soonjae Pyo, Youngkee Eun, Jungwook Choi, and Jongbaeg Kim

Subjects

*CARBON nanotubes, *NANOTUBES, *CONTACT resistance (Materials science), *ELECTRIC resistance, *SILICON

Abstract

A novel carbon nanotube (CNT)-based flexible strain sensor with the highest gauge factor of 4739 is presented. CNT-to-CNT contacts are fabricated on a pair of silicon electrodes fixed on a PDMS specimen for both flexibility and electrical connection. The strain is detected by the resistance change between facing CNT bundles. The proposed approach could be applied for diverse applications with a high gauge factor. [ABSTRACT FROM AUTHOR]

Published

2016

26. Secretory clusterin inhibits osteoclastogenesis by attenuating M-CSF-dependent osteoclast precursor cell proliferation.

Author

Bongkun Choi, Soon-Suk Kang, Sang-Wook Kang, Bon-Hong Min, Eun-Jin Lee, Da-Hyun Song, Sang-Min Kim, Youngsup Song, Seung-Yong Yoon, and Eun-Ju Chang

Subjects

*CLUSTERIN, *OSTEOCLASTS, *COLONY-stimulating factors (Physiology), *PROTEIN precursors, *CELL proliferation, *APOLIPOPROTEIN J

Abstract

Secretory clusterin (sCLU)/apolipoprotein J is a multifunctional glycoprotein that is ubiquitously expressed in various tissues. Reduced sCLU in the joints of patients with bone erosive disease is associated with disease activity; however, its exact role has yet to be elucidated. Here, we report that CLU is expressed and secreted during osteoclastogenesis in mouse bone marrow-derived macrophages (BMMs) that are treated with receptor activator of nuclear factor kappa-B ligand (RANKL) and macrophage colony-stimulating factor (M-CSF). CLU-deficient BMMs obtained from CLU-/- mice exhibited no significant alterations in OC differentiation in comparison with BMMs obtained from wild-type mice. In contrast, exogenous sCLU treatment significantly inhibited OC formation in both BMMs and OC precursor cultures. The inhibitory effect of sCLU was more prominent in BMMs than OC precursor cultures. Interestingly, treating BMMs with sCLU decreased the proliferative effects elicited by M-CSF and suppressed M-CSF-induced ERK activation of OC precursor cells without causing apoptotic cell death. This study provides the first evidence that sCLU reduces OC formation by inhibiting the actions of M-CSF, thereby suggesting its protective role in bone erosion. [ABSTRACT FROM AUTHOR]

Published

2014