| scholarly article | Q13442814 |
| P50 | author | Di Wang | Q61142360 |
| Ning Wang | Q87781635 | ||
| Yibin Feng | Q87781639 | ||
| P2093 | author name string | Cheng Zhang | |
| Sha Li | |||
| Chi-Ming Che | |||
| Yu Xu | |||
| Wen Xia | |||
| Hor-Yue Tan | |||
| P2860 | cites work | Chronic inflammation in fat plays a crucial role in the development of obesity-related insulin resistance | Q24617743 |
| Adipose tissue macrophages: going off track during obesity | Q26768692 | ||
| MsrA Overexpression Targeted to the Mitochondria, but Not Cytosol, Preserves Insulin Sensitivity in Diet-Induced Obese Mice | Q27314952 | ||
| Secisbp2 is essential for embryonic development and enhances selenoprotein expression | Q28585049 | ||
| Obesity induces a phenotypic switch in adipose tissue macrophage polarization | Q29547686 | ||
| Female mice are protected against high-fat diet induced metabolic syndrome and increase the regulatory T cell population in adipose tissue | Q31103663 | ||
| Selenoproteins regulate macrophage invasiveness and extracellular matrix-related gene expression | Q33513325 | ||
| MyD88-dependent interplay between myeloid and endothelial cells in the initiation and progression of obesity-associated inflammatory diseases | Q33569870 | ||
| Adipose tissue macrophages promote myelopoiesis and monocytosis in obesity | Q33724394 | ||
| Metabolic dysfunction drives a mechanistically distinct proinflammatory phenotype in adipose tissue macrophages | Q34316035 | ||
| Mutations in the selenocysteine insertion sequence-binding protein 2 gene lead to a multisystem selenoprotein deficiency disorder in humans | Q34360195 | ||
| Time-course microarrays reveal early activation of the immune transcriptome and adipokine dysregulation leads to fibrosis in visceral adipose depots during diet-induced obesity | Q34402691 | ||
| Downregulation of adipose tissue fatty acid trafficking in obesity: a driver for ectopic fat deposition? | Q34448790 | ||
| Mutations in SECISBP2 result in abnormal thyroid hormone metabolism | Q34460050 | ||
| Subcutaneous adipose tissue macrophage infiltration is associated with hepatic and visceral fat deposition, hyperinsulinemia, and stimulation of NF-κB stress pathway. | Q35404775 | ||
| Redox regulation of NLRP3 inflammasomes: ROS as trigger or effector? | Q35486035 | ||
| Expression of Selenoprotein Genes Is Affected by Obesity of Pigs Fed a High-Fat Diet | Q35775167 | ||
| Relation of depot-specific adipose inflammation to insulin resistance in human obesity. | Q35926642 | ||
| Five stages of evolving beta-cell dysfunction during progression to diabetes | Q35961960 | ||
| Diet-induced obesity in the selenocysteine lyase knockout mouse | Q36108624 | ||
| Telmisartan directly ameliorates the neuronal inflammatory response to IL-1β partly through the JNK/c-Jun and NADPH oxidase pathways | Q36136825 | ||
| Local proliferation initiates macrophage accumulation in adipose tissue during obesity | Q36775005 | ||
| Gene silencing in adipose tissue macrophages regulates whole-body metabolism in obese mice | Q36855257 | ||
| ROS play a critical role in the differentiation of alternatively activated macrophages and the occurrence of tumor-associated macrophages | Q36973955 | ||
| Clinical and molecular characterization of a novel selenocysteine insertion sequence-binding protein 2 (SBP2) gene mutation (R128X). | Q37379565 | ||
| Obesity activates a program of lysosomal-dependent lipid metabolism in adipose tissue macrophages independently of classic activation | Q37612556 | ||
| T cell-derived IL-22 amplifies IL-1β-driven inflammation in human adipose tissue: relevance to obesity and type 2 diabetes. | Q39024643 | ||
| CD206+ M2-like macrophages regulate systemic glucose metabolism by inhibiting proliferation of adipocyte progenitors | Q40089118 | ||
| SECIS-binding protein 2 interacts with the SMN complex and the methylosome for selenoprotein mRNP assembly and translation | Q41694012 | ||
| Local proliferation of macrophages contributes to obesity-associated adipose tissue inflammation | Q41838863 | ||
| Metabolically Activated Adipose Tissue Macrophages Perform Detrimental and Beneficial Functions during Diet-Induced Obesity | Q42379901 | ||
| Characterization of multilayered nanoparticles encapsulated in yeast cell wall particles for DNA delivery | Q42815016 | ||
| Selenoprotein-related disease in a young girl caused by nonsense mutations in the SBP2 gene | Q43054577 | ||
| Single cell transcriptomics suggest that human adipocyte progenitor cells constitute a homogeneous cell population. | Q43535599 | ||
| Rapid Elevation in CMPF May Act As a Tipping Point in Diabetes Development. | Q46576600 | ||
| Inflammasome activation is reactive oxygen species dependent and mediates irinotecan-induced mucositis through IL-1β and IL-18 in mice. | Q46876184 | ||
| Irf5 deficiency in macrophages promotes beneficial adipose tissue expansion and insulin sensitivity during obesity. | Q48192209 | ||
| Frontline Science: Rapid adipose tissue expansion triggers unique proliferation and lipid accumulation profiles in adipose tissue macrophages. | Q53705576 | ||
| Macrophage phenotype and bioenergetics are controlled by oxidized phospholipids identified in lean and obese adipose tissue | Q55031285 | ||
| Deficient production of IL-1 receptor antagonist and IL-6 coupled to oxidative stress in cryopyrin-associated periodic syndrome monocytes | Q61050010 | ||
| P433 | issue | 8 | |
| P921 | main subject | insulin resistance | Q1053470 |
| P304 | page(s) | eaav0198 | |
| P577 | publication date | 2019-08-14 | |
| P1433 | published in | Science Advances | Q19881044 |
| P1476 | title | SBP2 deficiency in adipose tissue macrophages drives insulin resistance in obesity | |
| P478 | volume | 5 |
| Q98159740 | M2-Like Tumor-Associated Macrophage-Targeted Codelivery of STAT6 Inhibitor and IKKβ siRNA Induces M2-to-M1 Repolarization for Cancer Immunotherapy with Low Immune Side Effects | cites work | P2860 |
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