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42 results on '"Zhu, Qingzhang"'

6. Adipocyte iron levels impinge on a fat-gut crosstalk to regulate intestinal lipid absorption and mediate protection from obesity

Author

Zhang, Zhuzhen, Funcke, Jan-Bernd, Zi, Zhenzhen, Zhao, Shangang, Straub, Leon G., Zhu, Yi, Zhu, Qingzhang, Crewe, Clair, An, Yu A., Chen, Shiuhwei, Li, Na, Wang, May-yun, Ghaben, Alexandra L., Lee, Charlotte, Gautron, Laurent, Engelking, Luke J., Raj, Prithvi, Deng, Yingfeng, Gordillo, Ruth, Kusminski, Christine M., and Scherer, Philipp E.

Published
2021
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9. Hyperleptinemia contributes to antipsychotic drug–associated obesity and metabolic disorders

Author

Zhao, Shangang, primary, Lin, Qian, additional, Xiong, Wei, additional, Li, Li, additional, Straub, Leon, additional, Zhang, Dinghong, additional, Zapata, Rizaldy, additional, Zhu, Qingzhang, additional, Sun, Xue-Nan, additional, Zhang, Zhuzhen, additional, Funcke, Jan-Bernd, additional, Li, Chao, additional, Chen, Shiuhwei, additional, Zhu, Yi, additional, Jiang, Nisi, additional, Li, Guannan, additional, Xu, Ziying, additional, Wyler, Steven C., additional, Wang, May-Yun, additional, Bai, Juli, additional, Han, Xianlin, additional, Kusminski, Christine M., additional, Zhang, Ningyan, additional, An, Zhiqiang, additional, Elmquist, Joel K., additional, Osborn, Olivia, additional, Liu, Chen, additional, and Scherer, Philipp E., additional

Published
2023
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10. Leptin Reduction as a Required Component for Weight Loss

Author

Zhao, Shangang, primary, Li, Na, primary, Xiong, Wei, primary, Li, Guannan, primary, He, Sijia, primary, Zhang, Zhuzhen, primary, Zhu, Qingzhang, primary, Jiang, Nisi, primary, Ikejiofor, Christian, primary, Zhu, Yi, primary, Wang, May-Yun, primary, Han, Xianlin, primary, Zhang, Ningyang, primary, Herrera-Solis, Carolina, primary, Kusminski, Christine, primary, An, Zhiqiang, primary, K. Elmquist, Joel, primary, and E. Scherer, Philipp, primary

Published
2023
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11. Partial Leptin Reduction as an Insulin Sensitization and Weight Loss Strategy

Author

Zhao, Shangang, Zhu, Yi, Schultz, Robbie D., Li, Na, He, Zhenyan, Zhang, Zhuzhen, Caron, Alexandre, Zhu, Qingzhang, Sun, Kai, Xiong, Wei, Deng, Hui, Sun, Jia, Deng, Yingfeng, Kim, Min, Lee, Charlotte E., Gordillo, Ruth, Liu, Tiemin, Odle, Angela K., Childs, Gwen V., Zhang, Ningyan, Kusminski, Christine M., Elmquist, Joel K., Williams, Kevin W., An, Zhiqiang, and Scherer, Philipp E.

Published
2019
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12. Dermal adipose tissue has high plasticity and undergoes reversible dedifferentiation in mice

Author

Zhang, Zhuzhen, Shao, Mengle, Hepler, Chelsea, Zi, Zhenzhen, Zhao, Shangang, An, Yu. A., Zhu, Yi, Ghaben, Alexandra L., Wang, May-yun, Li, Na, Onodera, Toshiharu, Joffin, Nolwenn, Crewe, Clair, Zhu, Qingzhang, Vishvanath, Lavanya, Kumar, Ashwani, Xing, Chao, Wang, Qiong A., Gautron, Laurent, Deng, Yingfeng, Gordillo, Ruth, Kruglikov, Ilja, Kusminski, Christine M., Gupta, Rana K., and Scherer, Philipp E.

Subjects
Skin -- Physiological aspects, RNA sequencing -- Physiological aspects, Adipose tissue -- Physiological aspects, Wound healing, Wound care, Fate, Homeostasis, RNA, Health care industry
Abstract

Dermal adipose tissue (also known as dermal white adipose tissue and herein referred to as dWAT) has been the focus of much discussion in recent years. However, dWAT remains poorly characterized. The fate of the mature dermal adipocytes and the origin of the rapidly reappearing dermal adipocytes at different stages remain unclear. Here, we isolated dermal adipocytes and characterized dermal fat at the cellular and molecular level. Together with dWAT's dynamic responses to external stimuli, we established that dermal adipocytes are a distinct class of white adipocytes with high plasticity. By combining pulse-chase lineage tracing and single-cell RNA sequencing, we observed that mature dermal adipocytes undergo dedifferentiation and redifferentiation under physiological and pathophysiological conditions. Upon various challenges, the dedifferentiated cells proliferate and redifferentiate into adipocytes. In addition, manipulation of dWAT highlighted an important role for mature dermal adipocytes for hair cycling and wound healing. Altogether, these observations unravel a surprising plasticity of dermal adipocytes and provide an explanation for the dynamic changes in dWAT mass that occur under physiological and pathophysiological conditions, and highlight the important contributions of dWAT toward maintaining skin homeostasis., Introduction White adipose tissue (WAT) evolved as the principal site for energy storage in vertebrate animals. White adipocytes, or 'fat cells,' are characterized by the presence of a single large [...]

Published
2019
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13. Leptin Reduction as a Required Component for Weight Loss.

Author

Zhao, Shangang, Li, Na, Xiong, Wei, Li, Guannan, He, Sijia, Zhang, Zhuzhen, Zhu, Qingzhang, Jiang, Nisi, Ikejiofor, Christian, Zhu, Yi, Wang, May-Yun, Han, Xianlin, Zhang, Ningyang, Solis-Herrera, Carolina, Kusminski, Christine, An, Zhiqiang, Elmquist, Joel K., and Scherer, Philipp E.

Subjects
GLUCAGON-like peptide 1, WEIGHT loss, LEPTIN, PEPTIDE receptors, WEIGHT gain
Abstract

Partial leptin reduction can induce significant weight loss, while weight loss contributes to partial leptin reduction. The cause-and-effect relationship between leptin reduction and weight loss remains to be further elucidated. Here, we show that FGF21 and the glucagon-like peptide 1 receptor (GLP-1R) agonist liraglutide rapidly induced a reduction in leptin. This leptin reduction contributed to the beneficial effects of GLP-1R agonism in metabolic health, as transgenically maintaining leptin levels during treatment partially curtailed the beneficial effects seen with these agonists. Moreover, a higher degree of leptin reduction during treatment, induced by including a leptin neutralizing antibody with either FGF21 or liraglutide, synergistically induced greater weight loss and better glucose tolerance in diet-induced obese mice. Furthermore, upon cessation of either liraglutide or FGF21 treatment, the expected immediate weight regain was observed, associated with a rapid increase in circulating leptin levels. Prevention of this leptin surge with leptin neutralizing antibodies slowed down weight gain and preserved better glucose tolerance. Mechanistically, a significant reduction in leptin induced a higher degree of leptin sensitivity in hypothalamic neurons. Our observations support a model that postulates that a reduction of leptin levels is a necessary prerequisite for substantial weight loss, and partial leptin reduction is a viable strategy to treat obesity and its associated insulin resistance. Article Highlights: Weight loss agents in the glucagon-like peptide 1 receptor and FGF21 group induced a rapid suppression of leptin immediately upon agonist exposure. This leptin suppression significantly contributed to the weight loss. Further leptin suppression with a leptin neutralizing antibody enhanced weight loss and further improved insulin sensitivity. Enhanced leptin reduction leads to further reduction in hepatic steatosis and fibrosis. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Ceramides and Atherosclerotic Cardiovascular Disease: A Current Perspective.

Author

Zhu, Qingzhang and Scherer, Philipp E.

Subjects
*CERAMIDES, *CARDIOVASCULAR diseases, *MYOCARDIAL infarction, *GLUCOSE transporters, *EPICARDIAL adipose tissue, *CANAGLIFLOZIN
Abstract

This article discusses the role of ceramides, a class of sphingolipids, in atherosclerotic cardiovascular disease (ASCVD). Ceramides are bioactive molecules involved in various cellular processes, including inflammation, apoptosis, and insulin resistance. Recent advances in plasma lipidomics have identified circulating ceramides as risk predictors for ASCVD. Ceramide-based risk scores, such as the Coronary Event Risk Test (CERT) 1 and CERT2, have been developed and validated for primary and secondary ASCVD risk stratification. Lowering ceramide levels through various therapeutic strategies shows promise in improving ASCVD outcomes. Further research is needed to understand the mechanisms by which ceramides contribute to atherosclerosis and to determine the potential benefits of ceramide-lowering interventions. [Extracted from the article]

Published
2024
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15. Cannabinoid receptor 1 signaling in hepatocytes and stellate cells does not contribute to NAFLD

Author

Wang, Simeng, Zhu, Qingzhang, Liang, Guosheng, Franks, Tania, Boucher, Magalie, Bence, Kendra K., Lu, Mingjian, Castorena, Carlos M., Zhao, Shangang, Elmquist, Joel K., Scherer, Philipp E., and Horton, Jay D.

Subjects
Liver cells -- Genetic aspects -- Health aspects, Fatty liver -- Development and progression -- Genetic aspects, Cellular signal transduction -- Health aspects -- Genetic aspects, Cell receptors -- Genetic aspects -- Health aspects, Endocannabinoids -- Genetic aspects -- Health aspects, Health care industry
Abstract

The endocannabinoid system regulates appetite and energy expenditure and inhibitors of cannabinoid receptor 1 (CB-1) induce weight loss with improvement in components of the metabolic syndrome. While CB-1 blockage in brain is responsible for weight loss, many of the metabolic benefits associated with CB-1 blockade have been attributed to inhibition of CB-1 signaling in the periphery. As a result, there has been interest in developing a peripherally restricted CB-1 inhibitor for the treatment of nonalcoholic fatty liver disease (NAFLD) that would lack the unwanted centrally mediated side effects. Here, we produced mice that lacked CB-1 in hepatocytes or stellate cells to determine if CB-1 signaling contributes to the development of NAFLD or liver fibrosis. Deletion of CB-1 in hepatocytes did not alter the development of NAFLD in mice fed a high-sucrose diet (HSD) or a high-fat diet (HFD). Similarly, deletion of CB-1 specifically in stellate cells also did not prevent the development of NAFLD in mice fed the HFD, nor did it protect mice from carbon tetrachloride-induced fibrosis. Combined, these studies do not support a direct role for hepatocyte or stellate cell CB-1 signaling in the development of NAFLD or liver fibrosis., Introduction Nonalcoholic fatty liver disease (NAFLD) is the most common condition affecting the liver in the United States, owing to its association with obesity and the metabolic syndrome (1). The [...]

Published
2021
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19. Adipocyte mesenchymal transition contributes to mammary tumor progression

Author

Zhu, Qingzhang, primary, Zhu, Yi, additional, Hepler, Chelsea, additional, Zhang, Qianbin, additional, Park, Jiyoung, additional, Gliniak, Christy, additional, Henry, Gervaise H., additional, Crewe, Clair, additional, Bu, Dawei, additional, Zhang, Zhuzhen, additional, Zhao, Shangang, additional, Morley, Thomas, additional, Li, Na, additional, Kim, Dae-Seok, additional, Strand, Douglas, additional, Deng, Yingfeng, additional, Robino, Jacob J., additional, Varlamov, Oleg, additional, Gordillo, Ruth, additional, Kolonin, Mikhail G., additional, Kusminski, Christine M., additional, Gupta, Rana K., additional, and Scherer, Philipp E., additional

Published
2022
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20. Adipocyte-specific deletion of Ip6k1 reduces diet-induced obesity by enhancing AMPK-mediated thermogenesis

Author

Zhu, Qingzhang, Ghoshal, Sarbani, Rodrigues, Ana, Gao, Su, Asterian, Alice, Kamenecka, Theodore M., Barrow, James C., and Chakraborty, Anutosh

Subjects
Gene mutations -- Research, Obesity -- Physiological aspects -- Genetic aspects -- Risk factors, Adipose tissues -- Physiological aspects -- Genetic aspects, Health care industry
Abstract

Enhancing energy expenditure (EE) is an attractive strategy to combat obesity and diabetes. Global deletion of Ip6k1 protects mice from diet-induced obesity (DIO) and insulin resistance, but the tissue-specific mechanism by which IP6K1 regulates body weight is unknown. Here, we have demonstrated that IP6K1 regulates fat accumulation by modulating AMPK-mediated adipocyte energy metabolism. Cold exposure led to downregulation of Ip6k1 in murine inguinal and retroperitoneal white adipose tissue (IWAT and RWAT) depots. Adipocyte-specific deletion of Ip6k1 (AdKO) enhanced thermogenic EE, which protected mice from high-fat diet-induced weight gain at ambient temperature (23°C), but not at thermoneutral temperature (30°C). AdKO-induced increases in thermogenesis also protected mice from cold-induced decreases in body temperature. UCP1, PGC1α, and other markers of browning and thermogenesis were elevated in IWAT and RWAT of AdKO mice. Cold-induced activation of sympathetic signaling was unaltered, whereas AMPK was enhanced, in AdKO IWAT. Moreover, beige adipocytes from AdKO IWAT displayed enhanced browning, which was diminished by AMPK depletion. Furthermore, we determined that IP6 and IP6K1 differentially regulate upstream kinase-mediated AMPK stimulatory phosphorylation in vitro. Finally, treating mildly obese mice with the IP6K inhibitor TNP enhanced thermogenesis and inhibited progression of DIO. Thus, IP6K1 regulates energy metabolism via a mechanism that could potentially be targeted in obesity., Introduction Obesity and type 2 diabetes (T2D) lead to several comorbid conditions, such as coronary heart disease, stroke, fatty liver, neurodegeneration, and various other diseases. A shift of the equilibrium [...]

Published
2016
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21. Activating Connexin43 gap junctions primes adipose tissue for therapeutic intervention

Author

Zhu, Yi, primary, Li, Na, additional, Huang, Mingyang, additional, Chen, Xi, additional, An, Yu A., additional, Li, Jianping, additional, Zhao, Shangang, additional, Funcke, Jan-Bernd, additional, Cao, Jianhong, additional, He, Zhenyan, additional, Zhu, Qingzhang, additional, Zhang, Zhuzhen, additional, Wang, Zhao V., additional, Xu, Lin, additional, Williams, Kevin W., additional, Li, Chien, additional, Grove, Kevin, additional, and Scherer, Philipp E., additional

Published
2022
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23. Response to Kunos et al. and Lotersztajn and Mallat

Author

Wang, Simeng, primary, Zhu, Qingzhang, additional, Liang, Guosheng, additional, Franks, Tania, additional, Boucher, Magalie, additional, Bence, Kendra K., additional, Lu, Mingjian, additional, Castorena, Carlos M., additional, Zhao, Shangang, additional, Elmquist, Joel K., additional, Scherer, Philipp E., additional, and Horton, Jay D., additional

Published
2022
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26. Adiponectin preserves metabolic fitness during aging

Author

Li, Na, primary, Zhao, Shangang, additional, Zhang, Zhuzhen, additional, Zhu, Yi, additional, Gliniak, Christy M, additional, Vishvanath, Lavanya, additional, An, Yu A, additional, Wang, May-yun, additional, Deng, Yingfeng, additional, Zhu, Qingzhang, additional, Shan, Bo, additional, Sherwood, Amber, additional, Onodera, Toshiharu, additional, Oz, Orhan K, additional, Gordillo, Ruth, additional, Gupta, Rana K, additional, Liu, Ming, additional, Horvath, Tamas L, additional, Dixit, Vishwa Deep, additional, and Scherer, Philipp E, additional

Published
2021
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27. Author response: Adiponectin preserves metabolic fitness during aging

Author

Li, Na, primary, Zhao, Shangang, additional, Zhang, Zhuzhen, additional, Zhu, Yi, additional, Gliniak, Christy M, additional, Vishvanath, Lavanya, additional, An, Yu A, additional, Wang, May-yun, additional, Deng, Yingfeng, additional, Zhu, Qingzhang, additional, Shan, Bo, additional, Sherwood, Amber, additional, Onodera, Toshiharu, additional, Oz, Orhan K, additional, Gordillo, Ruth, additional, Gupta, Rana K, additional, Liu, Ming, additional, Horvath, Tamas L, additional, Dixit, Vishwa Deep, additional, and Scherer, Philipp E, additional

Published
2021
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32. Dermal adipocytes contribute to the metabolic regulation of dermal fibroblasts.

Author

Zhang, Zhuzhen, Kruglikov, Ilja, Zhao, Shangang, Zi, Zhenzhen, Gliniak, Christy M., Li, Na, Wang, May‐yun, Zhu, Qingzhang, Kusminski, Christine M., and Scherer, Philipp E.

Subjects
METABOLIC regulation, FAT cells, FIBROBLASTS, EXTRACELLULAR matrix, CELL populations
Abstract

Dermal fibroblasts are an essential population of skin cells. They are not only responsible for synthesis and remodelling of the extracellular matrix of the dermis, but also communicate with other skin cells via autocrine and paracrine interactions. Skin‐associated dermal adipocytes reside below the reticular dermis. Strong lipolysis is observed during the regression of dermal adipocytes. However, the nature of the local intercellular crosstalk in which lipids released by dermal adipocytes affecting the metabolism of adjacent skin fibroblasts has not yet been examined. With the use of a series of novel mouse models that allow us to manipulate adipocytes, we demonstrate that dermal adipocytes can modulate the structure of the dermis through regulating extracellular matrix production in dermal fibroblasts. Fatty acids released by dermal adipocytes are involved in this process. Our observations offer new in vivo insights into the role of dermal adipocyte‐derived lipids in influencing metabolism of adjacent local cells in the skin through a paracrine effect in the microenvironment of the dermal adipocyte. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Immunologic and endocrine functions of adipose tissue: implications for kidney disease.

Author

Zhu, Qingzhang and Scherer, Philipp E.

Subjects
*IMMUNOLOGIC diseases, *KIDNEY diseases, *ENDOCRINE diseases, *ADIPOSE tissues, *CONNECTIVE tissues
Abstract

Excess adiposity can induce adverse sequelae in multiple cell types and organ systems. The transition from the lean to the obese state is characterized by fundamental cellular changes at the level of the adipocyte. These changes affect the local microenvironment within the respective adipose tissue but can also affect nonadipose systems. Adipocytes within fat pads respond to chronic nutrient excess through hyperplasia or hypertrophy, which can differentially affect interorgan crosstalk between various adipose depots and other organs. This crosstalk is dependent on the unique ability of the adipocyte to coordinate metabolic adjustments throughout the body and to integrate responses to maintain metabolic homeostasis. These actions occur through the release of free fatty acids and metabolites during times of energy need - a process that is altered in the obese state. In addition, adipocytes release a wide array of signalling molecules, such as sphingolipids, as well as inflammatory and hormonal factors (adipokines) that are critical for interorgan crosstalk. The interactions of adipose tissue with the kidney - referred to as the adipo-renal axis - are important for normal kidney function as well as the response of the kidney to injury. Here, we discuss the mechanistic basis of this interorgan crosstalk, which clearly has great therapeutic potential given the increasing rates of chronic kidney disease secondary to obesity and type 2 diabetes mellitus. [ABSTRACT FROM AUTHOR]

Published
2018
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36. The role of mitochondrial tRNAPhe C628T variant in deafness expression.

Author

Zhu, Qingzhang, Zhou, Yuanfeng, Jin, Xiaoping, and Lin, Xianfang

Subjects
*MITOCHONDRIAL RNA, *TRANSFER RNA, *GENETIC mutation, *GENETICS of deafness, *PHYLOGENY
Abstract

Mutations in mitochondrial genome are one of the most important causes of hearing loss, of these, mitochondrial tRNA (mt-tRNA) genes are the hot spots for mutations associated with deafness. Most recently, a novel mt-tRNAPhe C628T variant has been reported to be associated with non-syndromic and sensorineural hearing loss. To test this association, we characterized the C628T variant using a phylogenetic approach; in addition, we employed the bioinformatics tool to predict the thermodynamic change of the mt-tRNAPhe gene with and without this variant. Intriguingly, the C628T variant was not evolutionary conserved and had little effect on mt-tRNAPhe folding. Moreover, through the application of the pathogenicity scoring system, we classified the C628T variant as a 'neutral polymorphism', suggesting that this variant currently lacked sufficient evident to support as a 'pathogenic' mutation. [ABSTRACT FROM AUTHOR]

Published
2015
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37. Cannabinoid receptor 1 signaling in hepatocytes and stellate cells does not contribute to NAFLD.

Author

Simeng Wang, Qingzhang Zhu, Guosheng Liang, Franks, Tania, Boucher, Magalie, Bence, Kendra K., Mingjian Lu, Castorena, Carlos M., Shangang Zhao, Elmquist, Joel K., Scherer, Philipp E., Horton, Jay D., Wang, Simeng, Zhu, Qingzhang, Liang, Guosheng, Lu, Mingjian, and Zhao, Shangang

Subjects
*CELL metabolism, *NON-alcoholic fatty liver disease, *CELL receptors, *DIET, *CIRRHOSIS of the liver, *CELLULAR signal transduction, *EPITHELIAL cells, *MICE, *ANIMALS
Abstract

The endocannabinoid system regulates appetite and energy expenditure and inhibitors of cannabinoid receptor 1 (CB-1) induce weight loss with improvement in components of the metabolic syndrome. While CB-1 blockage in brain is responsible for weight loss, many of the metabolic benefits associated with CB-1 blockade have been attributed to inhibition of CB-1 signaling in the periphery. As a result, there has been interest in developing a peripherally restricted CB-1 inhibitor for the treatment of nonalcoholic fatty liver disease (NAFLD) that would lack the unwanted centrally mediated side effects. Here, we produced mice that lacked CB-1 in hepatocytes or stellate cells to determine if CB-1 signaling contributes to the development of NAFLD or liver fibrosis. Deletion of CB-1 in hepatocytes did not alter the development of NAFLD in mice fed a high-sucrose diet (HSD) or a high-fat diet (HFD). Similarly, deletion of CB-1 specifically in stellate cells also did not prevent the development of NAFLD in mice fed the HFD, nor did it protect mice from carbon tetrachloride-induced fibrosis. Combined, these studies do not support a direct role for hepatocyte or stellate cell CB-1 signaling in the development of NAFLD or liver fibrosis. [ABSTRACT FROM AUTHOR]

Published
2021
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38. Adipocyte-specific deletion of Ip6k1 reduces diet-induced obesity by enhancing AMPK-mediated thermogenesis.

Author

Qingzhang Zhu, Ghoshal, Sarbani, Rodrigues, Ana, Su Gao, Asterian, Alice, Kamenecka, Theodore M., Barrow, James C., Chakraborty, Anutosh, Zhu, Qingzhang, and Gao, Su

Subjects
*CALORIC expenditure, *OBESITY, *DIABETES, *INSULIN resistance, *REGULATION of body weight, *ENERGY metabolism
Abstract

Enhancing energy expenditure (EE) is an attractive strategy to combat obesity and diabetes. Global deletion of Ip6k1 protects mice from diet-induced obesity (DIO) and insulin resistance, but the tissue-specific mechanism by which IP6K1 regulates body weight is unknown. Here, we have demonstrated that IP6K1 regulates fat accumulation by modulating AMPK-mediated adipocyte energy metabolism. Cold exposure led to downregulation of Ip6k1 in murine inguinal and retroperitoneal white adipose tissue (IWAT and RWAT) depots. Adipocyte-specific deletion of Ip6k1 (AdKO) enhanced thermogenic EE, which protected mice from high-fat diet-induced weight gain at ambient temperature (23°C), but not at thermoneutral temperature (30°C). AdKO-induced increases in thermogenesis also protected mice from cold-induced decreases in body temperature. UCP1, PGC1α, and other markers of browning and thermogenesis were elevated in IWAT and RWAT of AdKO mice. Cold-induced activation of sympathetic signaling was unaltered, whereas AMPK was enhanced, in AdKO IWAT. Moreover, beige adipocytes from AdKO IWAT displayed enhanced browning, which was diminished by AMPK depletion. Furthermore, we determined that IP6 and IP6K1 differentially regulate upstream kinase-mediated AMPK stimulatory phosphorylation in vitro. Finally, treating mildly obese mice with the IP6K inhibitor TNP enhanced thermogenesis and inhibited progression of DIO. Thus, IP6K1 regulates energy metabolism via a mechanism that could potentially be targeted in obesity. [ABSTRACT FROM AUTHOR]

Published
2016
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39. Response to Kunos et al. and Lotersztajn and Mallat.

Author

Simeng Wang, Qingzhang Zhu, Guosheng Liang, Franks, Tania, Boucher, Magalie, Bence, Kendra K., Mingjian Lu, Castorena, Carlos M., Shangang Zhao, Elmquist, Joel K., Scherer, Philipp E., Horton, Jay D., Wang, Simeng, Zhu, Qingzhang, Liang, Guosheng, Lu, Mingjian, and Zhao, Shangang

Published
2022
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40. Adipose Tissue Analysis Toolkit (ATAT) for Automated Analysis of Adipocyte Size and Extracellular Matrix in White Adipose Tissue.

Author

Robino JJ, Plekhanov AP, Zhu Q, Jensen MD, Scherer PE, Roberts CT, and Varlamov O

Abstract

Objective: The pathological expansion of white adipose tissue (WAT) in obesity involves adipocyte hypertrophy accompanied by expansion of collagen-rich pericellular extracellular matrix (ECM) and the development of crown-like structures (CLS). Traditionally, WAT morphology is assessed through immunohistochemical analysis of WAT sections. However, manual analysis of large histological sections is time-consuming, and available digital tools for analyzing adipocyte size and pericellular ECM are limited. To address this gap, we developed the Adipose Tissue Analysis Toolkit (ATAT), an ImageJ plugin facilitating analysis of adipocyte size, WAT ECM and CLS., Methods and Results: ATAT utilizes local and image-level differentials in pixel intensity to independently threshold background, distinguishing adipocyte-free tissue without user input. It accurately captures adipocytes in histological sections stained with common dyes and automates the analysis of adipocyte cross-sectional area, total-field, and localized region-of-interest ECM. ATAT allows fully automated batch analysis of histological images using default or user-defined adipocyte detection parameters., Conclusions: ATAT provides several advantages over existing WAT image analysis tools, enabling high-throughput analyses of adipocyte-specific parameters and facilitating the assessment of ECM changes associated with WAT remodeling due to weight changes and other pathophysiological alterations that affect WAT function., Study Importance Questions: What is already known about this subject?: The manual analysis of large WAT histological sections is very time-consuming, while digital tools for the analysis of WAT are limited. What are the new findings in your manuscript?: - ATAT enables fully automated analysis of batches of histological images using either default or user-defined adipocyte detection parameters- ATAT allows high-throughput analyses of adipocyte-specific parameters and pericellular extracellular matrix- ATAT enables the assessment of fibrotic changes associated with WAT remodeling and crown-like structures How might your results change the direction of research or the focus of clinical practice?: - ATAT is designed to work with histological sections and digital images obtained using a slide scanner or a microscope.- This tool will help basic and clinical researchers to conduct automated analyses of adipose tissue histological sections.

Published
2023
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41. Global IP6K1 deletion enhances temperature modulated energy expenditure which reduces carbohydrate and fat induced weight gain.

Author

Zhu Q, Ghoshal S, Tyagi R, and Chakraborty A

Subjects
Adipocytes metabolism, Animals, Diet, High-Fat, Eating, Insulin Resistance genetics, Insulin Resistance physiology, Male, Mice, Mice, Knockout, Obesity genetics, Phosphotransferases (Phosphate Group Acceptor) genetics, Signal Transduction, Temperature, Thermogenesis physiology, Weight Gain genetics, Energy Metabolism genetics, Obesity metabolism, Phosphotransferases (Phosphate Group Acceptor) metabolism
Abstract

Objective: IP6 kinases (IP6Ks) regulate cell metabolism and survival. Mice with global (IP6K1-KO) or adipocyte-specific (AdKO) deletion of IP6K1 are protected from diet induced obesity (DIO) at ambient (23 °C) temperature. AdKO mice are lean primarily due to increased AMPK mediated thermogenic energy expenditure (EE). Thus, at thermoneutral (30 °C) temperature, high fat diet (HFD)-fed AdKO mice expend energy and gain body weight, similar to control mice. IP6K1 is ubiquitously expressed; thus, it is critical to determine to what extent the lean phenotype of global IP6K1-KO mice depends on environmental temperature. Furthermore, it is not known whether IP6K1 regulates AMPK mediated EE in cells, which do not express UCP1., Methods: Q-NMR, GTT, food intake, EE, QRT-PCR, histology, mitochondrial oxygen consumption rate (OCR), fatty acid metabolism assays, and immunoblot studies were conducted in IP6K1-KO and WT mice or cells., Results: Global IP6K1 deletion mediated enhancement in EE is impaired albeit not abolished at 30 °C. As a result, IP6K1-KO mice are protected from DIO, insulin resistance, and fatty liver even at 30 °C. Like AdKO, IP6K1-KO mice display enhanced adipose tissue browning. However, unlike AdKO mice, thermoneutrality only partly abolishes browning in IP6K1-KO mice. Cold (5 °C) exposure enhances carbohydrate expenditure, whereas 23 °C and 30 °C promote fat oxidation in HFD-KO mice. Furthermore, IP6K1 deletion diminishes cellular fat accumulation via activation of the AMPK signaling pathway., Conclusions: Global deletion of IP6K1 ameliorates obesity and insulin resistance irrespective of the environmental temperature conditions, which strengthens its validity as an anti-obesity target.

Published
2016
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42. The role of mitochondrial tRNAPhe C628T variant in deafness expression.

Author

Zhu Q, Zhou Y, Jin X, and Lin X

Subjects
Alleles, Base Sequence, Computational Biology, Databases, Nucleic Acid, Deafness diagnosis, Evolution, Molecular, Genes, Mitochondrial, Genetic Predisposition to Disease, Genome, Mitochondrial, Humans, Mutation, Nucleic Acid Conformation, Phylogeny, RNA chemistry, RNA, Mitochondrial, RNA, Transfer, Phe chemistry, Thermodynamics, Deafness genetics, Gene Expression, Genetic Variation, RNA genetics, RNA, Transfer, Phe genetics
Abstract

Mutations in mitochondrial genome are one of the most important causes of hearing loss, of these, mitochondrial tRNA (mt-tRNA) genes are the hot spots for mutations associated with deafness. Most recently, a novel mt-tRNA(Phe) C628T variant has been reported to be associated with non-syndromic and sensorineural hearing loss. To test this association, we characterized the C628T variant using a phylogenetic approach; in addition, we employed the bioinformatics tool to predict the thermodynamic change of the mt-tRNA(Phe) gene with and without this variant. Intriguingly, the C628T variant was not evolutionary conserved and had little effect on mt-tRNA(Phe) folding. Moreover, through the application of the pathogenicity scoring system, we classified the C628T variant as a "neutral polymorphism", suggesting that this variant currently lacked sufficient evident to support as a "pathogenic" mutation.

Published
2015
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