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191.
Hoon-Ki Sung Kyung-Oh Doh Joe Eun Son Jin Gyoon Park Yunui Bae Soojeong Choi Seana Mary Lunney Nelson Rebecca Cowling Kristina Nagy Iacovos P. Michael Gou Young Koh S. Lee Adamson Tony Pawson Andras Nagy 《Cell metabolism》2013,17(1):61-72
Highlights? Two-way modulations of adipose VEGF were generated with aP2-Cre transgene ? Adipose VEGF KO reduces vasculature, increases hypoxia and inflammation in fat ? Adipose VEGF KO accelerates the development of metabolic disease in high-fat diet ? Induced adipose VEGF has opposite effect on fat and restores metabolic homeostasis 相似文献
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194.
Young-Jun Park Sung-Jin Yoon Hyun-Woo Suh Dong Oh Kim Jeong-Ran Park Haiyoung Jung Tae-Don Kim Suk Ran Yoon Jeong-Ki Min Hee-Jun Na Seon-Jin Lee Hee Gu Lee Young Ho Lee Hee-Bong Lee Inpyo Choi 《PLoS pathogens》2013,9(10)
Thioredoxin-interacting protein (TXNIP) has multiple functions, including tumor suppression and involvement in cell proliferation and apoptosis. However, its role in the inflammatory process remains unclear. In this report, we demonstrate that Txnip−/− mice are significantly more susceptible to lipopolysaccharide (LPS)-induced endotoxic shock. In response to LPS, Txnip−/− macrophages produced significantly higher levels of nitric oxide (NO) and inducible nitric oxide synthase (iNOS), and an iNOS inhibitor rescued Txnip−/− mice from endotoxic shock-induced death, demonstrating that NO is a major factor in TXNIP-mediated endotoxic shock. This susceptibility phenotype of Txnip−/− mice occurred despite reduced IL-1β secretion due to increased S-nitrosylation of NLRP3 compared to wild-type controls. Taken together, these data demonstrate that TXNIP is a novel molecule that links NO synthesis and NLRP3 inflammasome activation during endotoxic shock. 相似文献
195.
196.
Min Jeong Ryu Soung Jung Kim Yong Kyung Kim Min Jeong Choi Surendar Tadi Min Hee Lee Seong Eun Lee Hyo Kyun Chung Saet Byel Jung Hyun-Jin Kim Young Suk Jo Koon Soon Kim Sang-Hee Lee Jin Man Kim Gi Ryang Kweon Ki Cheol Park Jung Uee Lee Young Yun Kong Chul-Ho Lee Jongkyeong Chung Minho Shong 《PLoS genetics》2013,9(3)
Impaired mitochondrial oxidative phosphorylation (OXPHOS) has been proposed as an etiological mechanism underlying insulin resistance. However, the initiating organ of OXPHOS dysfunction during the development of systemic insulin resistance has yet to be identified. To determine whether adipose OXPHOS deficiency plays an etiological role in systemic insulin resistance, the metabolic phenotype of mice with OXPHOS–deficient adipose tissue was examined. Crif1 is a protein required for the intramitochondrial production of mtDNA–encoded OXPHOS subunits; therefore, Crif1 haploinsufficient deficiency in mice results in a mild, but specific, failure of OXPHOS capacity in vivo. Although adipose-specific Crif1-haploinsufficient mice showed normal growth and development, they became insulin-resistant. Crif1-silenced adipocytes showed higher expression of chemokines, the expression of which is dependent upon stress kinases and antioxidant. Accordingly, examination of adipose tissue from Crif1-haploinsufficient mice revealed increased secretion of MCP1 and TNFα, as well as marked infiltration by macrophages. These findings indicate that the OXPHOS status of adipose tissue determines its metabolic and inflammatory responses, and may cause systemic inflammation and insulin resistance. 相似文献
197.
Mutations in the LMNA gene, which encodes lamin A and C (lamin A/C), cause a diverse spectrum of tissue-selective diseases termed laminopathies. The most prevalent form affects striated muscles as dilated cardiomyopathy with variable skeletal muscle involvement, which includes autosomal Emery-Dreifuss muscular dystrophy. Mechanisms underlying the disease pathogenesis are beginning to be understood and they point toward defects in cell signaling. We therefore assessed putative signaling defects in a mouse model carrying a point mutation in Lmna (LmnaH222P/H222P) that faithfully recapitulates human Emery-Dreifuss muscular dystrophy. We found that AKT-mechanistic target of rapamycin (MTOR) signaling was hyperactivated in hearts of LmnaH222P/H222P mice and that reducing MTOR activity by pharmacological intervention ameliorated cardiomyopathy. Given the central role of MTOR in regulating autophagy, we assessed fasting-induced autophagic responses and found that they were impaired in hearts of these mice. Moreover, the improved heart function associated with pharmacological blockade of MTOR was correlated with enhanced autophagy. These findings demonstrated that signaling defects that impair autophagy underlie pathogenesis of dilated cardiomyopathy arising from LMNA mutation. 相似文献
198.
Dongwook Choi Kyoung-Seok Ryu Chankyu Park 《Biochimica et Biophysica Acta - Proteins and Proteomics》2013,1834(2):621-628
Escherichia coli Hsp31, encoded by hchA, is a heat-inducible molecular chaperone. We found that Hsp31 undergoes a conformational change via temperature-induced unfolding, generating a high molecular weight (HMW) form with enhanced chaperone activity. Although it has previously been reported that some subunits of the Hsp31 crystal structure show structural heterogeneity with increased hydrophobic surfaces, Hsp31 basically forms a dimer. We found that a C-terminal deletion (CΔ19) of Hsp31 exhibited structurally and functionally similar characteristics to that of the HMW form. Both the CΔ19 and HMW forms achieved a structure with considerably more β-sheets and less α-helices than the native dimeric form, exposing a portion of its hydrophobic surfaces. The structural alterations were determined from its spectral changes in circular dichroism, intrinsic fluorescence of tryptophan residues, and fluorescence of bis-ANS binding to a hydrophobic surface. Interestingly, during thermal transition, the dimeric Hsp31 undergoes a conformational change to the HMW species via the CΔ19 structure, as monitored with near-UV CD spectrum, implying that the CΔ19 resembles an intermediate state between the dimer and the HMW form. From these results, we propose that Hsp31 transforms itself into a fully functional chaperone by altering its tertiary and quaternary structures. 相似文献
199.
Shin Jung Park Sun-Hee Hyun Hyo Won Suh Seok-Young Lee Gi-Ho Sung Seong Hwan Kim Hyung-Kyoon Choi 《Metabolomics : Official journal of the Metabolomic Society》2013,9(1):236-246
In this study, nuclear magnetic resonance techniques coupled with multivariate data analysis were used for the metabolic profiling of mycelia and fruiting bodies of the entomopathogenic fungi, Cordyceps bassiana according to developmental stages. A direct extraction method using two deuterated solvents of D2O and CDCl3 was used to investigate the relative levels of identified metabolites in each extraction condition in the mycelium and fruiting body formation stages. There was a clear separation among mycelia and fruiting bodies with various developmental stages in partial least-squares discriminant analysis (PLS-DA) derived score plots. During the transition from mycelia to fruiting bodies, the major metabolic change observed was the conversion of glucose to mannitol, and beauvericin to phenylalanine and 1-hydroxyisovaleric acid. In the developmental stages of fruiting bodies studied, there was a clear separation between stage 3 and the other stages in PLS-DA derived score plots. Nineteen compounds including 13 amino acids, 2 nucleosides, 3 organic acids, and glucose showed the highest levels in stage 3 fruiting bodies. The flavonoid content in the fruiting bodies showed similar levels during stages 1, 2, and 3, whereas the level at stage 4 was significantly decreased compared to the other stages. Results suggest that the fruiting body of C. bassiana is richer in natural resources at stage 3 compared to the other fruiting body stages due to its high abundance of compounds including total flavonoids. The metabolome information acquired in this study can be useful criteria for the quality control of commercial use of C. bassiana. 相似文献
200.
Sung‐Hae Park Jongchul Lim Young Soo Kwon In Young Song Jong Min Choi Seulki Song Taiho Park 《Liver Transplantation》2013,3(2):184-192
Nanoporous network polymer nanocomposites with tunable pore size for size‐dependent selective ion transport are successfully prepared via the surface‐induced cross‐linking polymerization of methyl methacrylate (MMA) and 1,6‐hexanediol diacrylate (HDDA) on the surfaces of nanocrystalline TiO2 particles. The morphologies of the porous network polymer layer and nanopores were investigated by transmission electron microscopy (TEM), field emission scanning electron microscopy (FE‐SEM), and Brunauer–Emmett–Teller (BET) experiments. The porous layer size‐selectively screened the ions that contacted the nanocrystalline TiO2 particles, as demonstrated by ion conductivity measurements, electrochemical impedance spectroscopy (EIS), and transient absorption spectroscopy (TAS). 相似文献