| scholarly article | Q13442814 |
| P2093 | author name string | Ann Hammarstedt | |
| Ulf Smith | |||
| Birgit Gustafson | |||
| Petter Isakson | |||
| P2860 | cites work | Subcutaneous abdominal preadipocyte differentiation in vitro inversely correlates with central obesity | Q51032064 |
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| Large-scale isolation of CD133+ progenitor cells from G-CSF mobilized peripheral blood stem cells. | Q54785700 | ||
| Adipose tissue inflammation and liver fat in patients with highly active antiretroviral therapy-associated lipodystrophy | Q58642121 | ||
| Committed subcutaneous preadipocytes are reduced in human obesity | Q79345667 | ||
| Preadipocytes mediate lipopolysaccharide-induced inflammation and insulin resistance in primary cultures of newly differentiated human adipocytes | Q80010792 | ||
| Cytokines promote Wnt signaling and inflammation and impair the normal differentiation and lipid accumulation in 3T3-L1 preadipocytes | Q24304097 | ||
| Chronic inflammation in fat plays a crucial role in the development of obesity-related insulin resistance | Q24617743 | ||
| Inflammation and metabolic disorders | Q27860923 | ||
| Obesity is associated with macrophage accumulation in adipose tissue | Q27860976 | ||
| Troglitazone increases the number of small adipocytes without the change of white adipose tissue mass in obese Zucker rats | Q28379378 | ||
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| Osteopontin mediates obesity-induced adipose tissue macrophage infiltration and insulin resistance in mice | Q35970899 | ||
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| Effects of age, sex, and clinical conditions on adipose tissue cellularity in man | Q39946915 | ||
| Preadipocyte conversion to macrophage. Evidence of plasticity. | Q40678700 | ||
| Omental and Subcutaneous Adipose Tissues of Obese Subjects Release Interleukin-6: Depot Difference and Regulation by Glucocorticoid1 | Q41722978 | ||
| Tumour necrosis factor-alpha inhibits adipogenesis via a beta-catenin/TCF4(TCF7L2)-dependent pathway. | Q42027895 | ||
| Interleukin-6 (IL-6) induces insulin resistance in 3T3-L1 adipocytes and is, like IL-8 and tumor necrosis factor-alpha, overexpressed in human fat cells from insulin-resistant subjects | Q42797512 | ||
| Distinct transcriptional profiles of adipogenesis in vivo and in vitro | Q42827325 | ||
| Adipocyte-derived serum amyloid A3 and hyaluronan play a role in monocyte recruitment and adhesion | Q42827506 | ||
| Tumor necrosis factor alpha (TNFalpha) stimulates Map4k4 expression through TNFalpha receptor 1 signaling to c-Jun and activating transcription factor 2. | Q42828385 | ||
| Wnt-signaling is maintained and adipogenesis inhibited by TNFalpha but not MCP-1 and resistin | Q42829111 | ||
| Comparison of the release of adipokines by adipose tissue, adipose tissue matrix, and adipocytes from visceral and subcutaneous abdominal adipose tissues of obese humans | Q44730563 | ||
| Expression of CD68 and macrophage chemoattractant protein-1 genes in human adipose and muscle tissues: association with cytokine expression, insulin resistance, and reduction by pioglitazone | Q46620643 | ||
| P275 | copyright license | Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported | Q19125045 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | obesity | Q12174 |
| inflammation | Q101991 | ||
| P304 | page(s) | 1550-1557 | |
| P577 | publication date | 2009-04-07 | |
| P1433 | published in | Diabetes | Q895262 |
| P1476 | title | Impaired preadipocyte differentiation in human abdominal obesity: role of Wnt, tumor necrosis factor-alpha, and inflammation | |
| P478 | volume | 58 |
| Q33727913 | 3T3-L1 preadipocytes exhibit heightened monocyte-chemoattractant protein-1 response to acute fatty acid exposure |
| Q60301299 | A long-term maternal diet transition from high-fat diet to normal fat diet during pre-pregnancy avoids adipose tissue inflammation in next generation |
| Q35061663 | A modified protocol to maximize differentiation of human preadipocytes and improve metabolic phenotypes. |
| Q37604806 | A transient increase in lipid peroxidation primes preadipocytes for delayed mitochondrial inner membrane permeabilization and ATP depletion during prolonged exposure to fatty acids. |
| Q41120046 | Activatin' Human Adipose Progenitors in Obesity |
| Q39735987 | Activation of canonical wingless-type MMTV integration site family (Wnt) signaling in mature adipocytes increases beta-catenin levels and leads to cell dedifferentiation and insulin resistance |
| Q34119609 | Activin a plays a critical role in proliferation and differentiation of human adipose progenitors |
| Q37988764 | Activins in adipogenesis and obesity. |
| Q34078663 | Adipocyte hypertrophy, inflammation and fibrosis characterize subcutaneous adipose tissue of healthy, non-obese subjects predisposed to type 2 diabetes |
| Q36208187 | Adipocyte-released insulin-like growth factor-1 is regulated by glucose and fatty acids and controls breast cancer cell growth in vitro. |
| Q28505209 | Adipogenesis and insulin sensitivity in obesity are regulated by retinoid-related orphan receptor gamma |
| Q90893796 | Adipogenesis and metabolic health |
| Q53737668 | Adipose Tissue Function and Expandability as Determinants of Lipotoxicity and the Metabolic Syndrome. |
| Q30234582 | Adipose Tissue-Specialized Immunologic Features Might Be the Potential Therapeutic Target of Prospective Medicines for Obesity. |
| Q37269350 | Adipose microenvironment promotes triple negative breast cancer cell invasiveness and dissemination by producing CCL5. |
| Q36957486 | Adipose tissue characteristics related to weight z-score in childhood. |
| Q58563280 | Adipose tissue dysfunction is associated with low levels of the novel Palmitic Acid Hydroxystearic Acids |
| Q36468789 | Adipose tissue dysregulation and reduced insulin sensitivity in non-obese individuals with enlarged abdominal adipose cells |
| Q37036130 | Adipose tissue fibrosis, hypertrophy, and hyperplasia: Correlations with diabetes in human obesity. |
| Q33829331 | Adipose tissue immune response: novel triggers and consequences for chronic inflammatory conditions. |
| Q36267560 | Adipose tissue macrophages impair preadipocyte differentiation in humans |
| Q35619414 | Adipose tissue plasticity from WAT to BAT and in between |
| Q38809397 | Adipose tissue regulates insulin sensitivity: role of adipogenesis, de novo lipogenesis and novel lipids |
| Q64053566 | Adipose-derived stromal/stem cells from different adipose depots in obesity development |
| Q52652756 | Adiposity Results in Metabolic and Inflammation Differences in Premenopausal and Postmenopausal Women Consistent with the Difference in Breast Cancer Risk. |
| Q37515390 | Age-Related Differences in Response to High-Fat Feeding on Adipose Tissue and Metabolic Profile in ZDSD Rats |
| Q36492859 | An Advanced Glycation End Product (AGE)-Receptor for AGEs (RAGE) Axis Restores Adipogenic Potential of Senescent Preadipocytes through Modulation of p53 Protein Function |
| Q41881763 | AnIn VitroModel to Probe the Regulation of Adipocyte Differentiation under Hyperglycemia |
| Q92688285 | Association of intracellular lipid accumulation in subcutaneous adipocyte precursors and plasma adipokines in bariatric surgery candidates |
| Q33781165 | Attenuation of obesity by early-life food restriction in genetically hyperphagic male OLETF rats: peripheral mechanisms. |
| Q28536551 | Bisphenol-A impairs insulin action and up-regulates inflammatory pathways in human subcutaneous adipocytes and 3T3-L1 cells |
| Q34060084 | Breaking patterns of environmentally influenced disease for health risk reduction: immune perspectives |
| Q92006511 | CRISPR/Cas9-Mediated BRCA1 Knockdown Adipose Stem Cells Promote Breast Cancer Progression |
| Q92642028 | Ca2+ entry via TRPC1 is essential for cellular differentiation and modulates secretion via the SNARE complex |
| Q41584304 | Changes in Lipids and Inflammatory Markers after Consuming Diets High in Red Meat or Dairy for Four Weeks |
| Q34035348 | Chronic inflammation in obesity and the metabolic syndrome |
| Q35979279 | Comparison of Visceral Fat Measures with Cardiometabolic Risk Factors in Healthy Adults |
| Q90409951 | Contribution of adipogenesis to healthy adipose tissue expansion in obesity |
| Q90678059 | Cytokines and inflammation in adipogenesis: an updated review |
| Q36305101 | Differences in the Osteogenic Differentiation Capacity of Omental Adipose-Derived Stem Cells in Obese Patients With and Without Metabolic Syndrome |
| Q55236739 | Discovery of a stem-like multipotent cell fate. |
| Q26748788 | Does Metabolically Healthy Obesity Exist? |
| Q37058821 | Downregulation of human Wnt3 in gastric cancer suppresses cell proliferation and induces apoptosis |
| Q50130176 | Downregulation of β1,4-galactosyltransferase 5 improves insulin resistance by promoting adipocyte commitment and reducing inflammation. |
| Q46959630 | Elucidating the Preadipocyte and Its Role in Adipocyte Formation: a Comprehensive Review |
| Q42447084 | Epicardial Adipose Tissue Is Nonlinearly Related to Anthropometric Measures and Subcutaneous Adipose Tissue |
| Q42795840 | Epigenetic modifications of the Zfp/ZNF423 gene control murine adipogenic commitment and are dysregulated in human hypertrophic obesity. |
| Q34481216 | Estrogen signaling in metabolic inflammation |
| Q59127653 | Exploring Coronary Artery Disease GWAs Targets With Functional Links to Immunometabolism |
| Q98226258 | Fate of Adipose Progenitor Cells in Obesity-Related Chronic Inflammation |
| Q33885827 | Genetic Predisposition for Type 2 Diabetes, but Not for Overweight/Obesity, Is Associated with a Restricted Adipogenesis |
| Q38934612 | Glutamine synthetase desensitizes differentiated adipocytes to proinflammatory stimuli by raising intracellular glutamine levels |
| Q39164317 | Histone demethylase KDM1A represses inflammatory gene expression in preadipocytes. |
| Q38072796 | Human adipose tissue stem cells: relevance in the pathophysiology of obesity and metabolic diseases and therapeutic applications |
| Q41878282 | Human monocytes accelerate proliferation and blunt differentiation of preadipocytes in association with suppression of C/EBPΑ mRNA |
| Q38728642 | Hypoxia in Obesity and Diabetes: Potential Therapeutic Effects of Hyperoxia and Nitrate. |
| Q37151130 | Hypoxia-inducible Factor-2α-dependent Hypoxic Induction of Wnt10b Expression in Adipogenic Cells |
| Q90365735 | Impaired Glucocorticoid Suppression of TGFβ Signaling in Human Omental Adipose Tissues Limits Adipogenesis and May Promote Fibrosis |
| Q35438444 | Impaired adipose tissue expandability and lipogenic capacities as ones of the main causes of metabolic disorders. |
| Q35612457 | In vivo adipogenesis in rats measured by cell kinetics in adipocytes and plastic-adherent stroma-vascular cells in response to high-fat diet and thiazolidinedione |
| Q43894263 | Increased urinary aldosterone excretion is associated with subcutaneous not visceral, adipose tissue area in obese individuals: a possible manifestation of dysfunctional subcutaneous adipose tissue |
| Q35685582 | Inducible Deletion of Protein Kinase Map4k4 in Obese Mice Improves Insulin Sensitivity in Liver and Adipose Tissues |
| Q37557999 | Inflammation and impaired adipogenesis in hypertrophic obesity in man. |
| Q54508822 | Infliximab modifies mesenteric adipose tissue alterations and intestinal inflammation in rats with TNBS-induced colitis. |
| Q42710030 | Injection of phosphatidylcholine and deoxycholic acid regulates gene expression of lipolysis-related factors, pro-inflammatory cytokines, and hormones on mouse fat tissue |
| Q34318738 | Interleukin-1 beta: a potential link between stress and the development of visceral obesity |
| Q40986711 | Interleukin-6 induces impairment in human subcutaneous adipogenesis in obesity-associated insulin resistance |
| Q33825153 | LPA receptor signaling: pharmacology, physiology, and pathophysiology |
| Q90208756 | Lipedema: A Call to Action! |
| Q34316560 | Long-term obesity levels in female OLETF rats following time-specific post-weaning food restriction. |
| Q37735170 | Loss of the TNFα function inhibits Wnt/β-catenin signaling, exacerbates obesity development in adolescent spontaneous obese mice |
| Q33946391 | Low abdominal subcutaneous preadipocyte adipogenesis is associated with visceral obesity, visceral adipocyte hypertrophy, and a dysmetabolic state |
| Q37018393 | Map4k4 Signaling Nodes in Metabolic and Cardiovascular Diseases |
| Q37163024 | Map4k4 suppresses Srebp-1 and adipocyte lipogenesis independent of JNK signaling |
| Q91100250 | Mechanisms of weight regain after weight loss - the role of adipose tissue |
| Q35789001 | Metabolic predictors of impaired glucose tolerance and type 2 diabetes in a predisposed population--A prospective cohort study. |
| Q54923265 | MicroRNA 21 is up-regulated in adipose tissue of obese diabetic subjects. |
| Q50957766 | MicroRNA and Adipogenesis |
| Q38005243 | MicroRNAs in adipose tissue: their role in adipogenesis and obesity |
| Q26830505 | Microbes and obesity--interrelationship between infection, adipose tissue and the immune system |
| Q33869839 | Novel pathway of adipogenesis through cross-talk between adipose tissue macrophages, adipose stem cells and adipocytes: evidence of cell plasticity. |
| Q57476581 | Obesity-Activated Adipose-Derived Stromal Cells Promote Breast Cancer Growth and Invasion |
| Q35108813 | Optimal protocol for the differentiation and metabolic analysis of human adipose stromal cells |
| Q37694556 | PPARG in Human Adipogenesis: Differential Contribution of Canonical Transcripts and Dominant Negative Isoforms. |
| Q37919998 | Pathogenic obesity and nutraceuticals |
| Q39032248 | Physiological Aging: Links Among Adipose Tissue Dysfunction, Diabetes, and Frailty |
| Q50532311 | Preadipocytes from obese humans with type 2 diabetes are epigenetically reprogrammed at genes controlling adipose tissue function |
| Q57067868 | Production of extracellular lysophosphatidic acid in the regulation of adipocyte functions and liver fibrosis |
| Q37669654 | Prolonged efficiency of siRNA-mediated gene silencing in primary cultures of human preadipocytes and adipocytes. |
| Q58761006 | RBM4a-SRSF3-MAP4K4 Splicing Cascade Constitutes a Molecular Mechanism for Regulating Brown Adipogenesis |
| Q36052979 | RPL13A and EEF1A1 Are Suitable Reference Genes for qPCR during Adipocyte Differentiation of Vascular Stromal Cells from Patients with Different BMI and HOMA-IR. |
| Q92965567 | Reduced SIRT1 and SIRT2 expression promotes adipogenesis of human visceral adipose stem cells and associates with accumulation of visceral fat in human obesity |
| Q92948023 | Reduced subcutaneous adipogenesis in human hypertrophic obesity is linked to senescent precursor cells |
| Q88380827 | Regenerative Potential and Inflammation-Induced Secretion Profile of Human Adipose-Derived Stromal Vascular Cells Are Influenced by Donor Variability and Prior Breast Cancer Diagnosis |
| Q64244050 | Regenerative and Transplantation Medicine: Cellular Therapy Using Adipose Tissue-Derived Mesenchymal Stromal Cells for Type 1 Diabetes Mellitus |
| Q42819740 | Regulation of adipocyte differentiation and gene expression-crosstalk between TGFβ and wnt signaling pathways |
| Q35760382 | Regulation of adiponectin production by insulin: interactions with tumor necrosis factor-α and interleukin-6 |
| Q50055420 | Regulation of immunometabolism in adipose tissue |
| Q34311203 | Relationship between impaired adipogenesis of retroperitoneal adipose tissue and hypertrophic obesity: role of endogenous glucocorticoid excess |
| Q37110526 | Restricted adipogenesis in hypertrophic obesity: the role of WISP2, WNT, and BMP4 |
| Q47570409 | Resveratrol inhibits obesity-associated adipose tissue dysfunction and tumor growth in a mouse model of postmenopausal claudin-low breast cancer |
| Q24594058 | S6K1 plays a critical role in early adipocyte differentiation |
| Q34700104 | Secreted frizzled-related protein 1 regulates adipose tissue expansion and is dysregulated in severe obesity. |
| Q34825893 | Selective Modulation of Wnt Ligands and Their Receptors in Adipose Tissue by Chronic Hyperadiponectinemia |
| Q26999869 | Sex dimorphism and depot differences in adipose tissue function |
| Q26853026 | Shaping fat distribution: New insights into the molecular determinants of depot- and sex-dependent adipose biology |
| Q34949971 | Sirt1 inhibits akt2-mediated porcine adipogenesis potentially by direct protein-protein interaction |
| Q43642407 | Stemness and osteogenic and adipogenic potential are differently impaired in subcutaneous and visceral adipose derived stem cells (ASCs) isolated from obese donors. |
| Q35618652 | Stromal-vascular fraction content and adipose stem cell behavior are altered in morbid obese and post bariatric surgery ex-obese women |
| Q36292319 | Systematic review of patient factors affecting adipose stem cell viability and function: implications for regenerative therapy. |
| Q35774778 | TNF-related apoptosis-inducing ligand promotes human preadipocyte proliferation via ERK1/2 activation |
| Q35195057 | TallyHO obese female mice experience poor reproductive outcomes and abnormal blastocyst metabolism that is reversed by metformin |
| Q41849781 | The Novel Secreted Adipokine WNT1-inducible Signaling Pathway Protein 2 (WISP2) Is a Mesenchymal Cell Activator of Canonical WNT. |
| Q35902839 | The WNT Inhibitor Dickkopf 1 and Bone Morphogenetic Protein 4 Rescue Adipogenesis in Hypertrophic Obesity in Humans |
| Q34078880 | The endocannabinoid system links gut microbiota to adipogenesis |
| Q60056998 | The fat cell epigenetic signature in post-obese women is characterized by global hypomethylation and differential DNA methylation of adipogenesis genes |
| Q26995575 | The gut-adipose-liver axis in the metabolic syndrome |
| Q45768103 | The relationship between fat depot‐specific preadipocyte differentiation and metabolic syndrome in obese women |
| Q42831868 | Thiazolidinediones increase the wingless-type MMTV integration site family (WNT) inhibitor Dickkopf-1 in adipocytes: a link with osteogenesis. |
| Q54380106 | Upregulation of lipocalin 2 in adipose tissues of severely obese women: positive relationship with proinflammatory cytokines. |
| Q35536391 | Using SRM-MS to quantify nuclear protein abundance differences between adipose tissue depots of insulin-resistant mice. |
| Q33687754 | WISP1/CCN4 inhibits adipocyte differentiation through repression of PPARγ activity. |
| Q36616934 | WISP2 regulates preadipocyte commitment and PPARγ activation by BMP4. |
| Q36867568 | Weight loss improves the adipogenic capacity of human preadipocytes and modulates their secretory profile. |
| Q43849983 | Whey protein isolate counteracts the effects of a high-fat diet on energy intake and hypothalamic and adipose tissue expression of energy balance-related genes |
| Q37708317 | Wnt signalling and the control of cellular metabolism. |
| Q42707587 | World Congress on the insulin resistance syndrome, 2009: cellular mechanisms of insulin resistance |
| Q34528510 | miR-130 suppresses adipogenesis by inhibiting peroxisome proliferator-activated receptor gamma expression |
| Q35701278 | microRNAs in the Regulation of Adipogenesis and Obesity |
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