Anti-adipogenic signals at the onset of obesity-related inflammation in white adipose tissue.

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Serveur académique Lausannois

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info:eu-repo/semantics/altIdentifier/doi/10.1007/s00018-020-03485-z

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info:eu-repo/semantics/altIdentifier/pmid/32157317

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info:eu-repo/semantics/altIdentifier/eissn/1420-9071

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info:eu-repo/grantAgreement/SNF//310030_156771///

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info:eu-repo/semantics/altIdentifier/urn/urn:nbn:ch:serval-BIB_713DAFDC1C958

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Serveur Académique Lausannois

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Université de Lausanne et CHUV

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info:eu-repo/semantics/openAccess , CC BY-ND 4.0 , https://creativecommons.org/licenses/by-nd/4.0/

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Adipogenesis; Adipose Tissue, White/cytology; Adipose Tissue, White/metabolism; Adipose Tissue, White/pathology; Animals; Cell Differentiation; Diet, High-Fat; Fatty Acid-Binding Proteins/genetics; Fatty Acid-Binding Proteins/metabolism; Gene Expression Regulation; Inflammation/etiology; Inflammation/metabolism; Inflammation/pathology; Interleukin-1beta/genetics; Interleukin-1beta/metabolism; Intra-Abdominal Fat/cytology; Intra-Abdominal Fat/metabolism; Intra-Abdominal Fat/pathology; Lipid Metabolism; Male; Mice; Mice, Inbred C57BL; Obesity/complications; Obesity/pathology; Signal Transduction/genetics; Stem Cells/cytology; Stem Cells/metabolism; Subcutaneous Fat/cytology; Subcutaneous Fat/metabolism; Subcutaneous Fat/pathology; Tumor Necrosis Factor-alpha/genetics; Tumor Necrosis Factor-alpha/metabolism; Wnt Proteins/metabolism; Adipocyte precursors; Adipose tissue; Angiogenesis; Epigenetics; Genome-scale metabolic network; Metaflammation; System biology; Transcriptomics

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Fat tissue Body fat tissues Adipose tissue Fatty tissue

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T. Caputo et al., « Anti-adipogenic signals at the onset of obesity-related inflammation in white adipose tissue. », Serveur académique Lausannois, ID : 10.1007/s00018-020-03485-z

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Chronic inflammation that affects primarily metabolic organs, such as white adipose tissue (WAT), is considered as a major cause of human obesity-associated co-morbidities. However, the molecular mechanisms initiating this inflammation in WAT are poorly understood. By combining transcriptomics, ChIP-seq and modeling approaches, we studied the global early and late responses to a high-fat diet (HFD) in visceral (vWAT) and subcutaneous (scWAT) AT, the first being more prone to obesity-induced inflammation. HFD rapidly triggers proliferation of adipocyte precursors within vWAT. However, concomitant antiadipogenic signals limit vWAT hyperplastic expansion by interfering with the differentiation of proliferating adipocyte precursors. Conversely, in scWAT, residing beige adipocytes lose their oxidizing properties and allow storage of excessive fatty acids. This phase is followed by tissue hyperplastic growth and increased angiogenic signals, which further enable scWAT expansion without generating inflammation. Our data indicate that scWAT and vWAT differential ability to modulate adipocyte number and differentiation in response to obesogenic stimuli has a crucial impact on the different susceptibility to obesity-related inflammation of these adipose tissue depots.

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