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9. Operative strategy in laparoscopic splenectomy

Author

Echarri, J. Vazquez, Romeo, J.M., Llorente, R., Montes, C., Marinelli, A., Ares, M.L., Alvarez, A. Garcia, Benito, J. Martin, Lacasa, D., and Veiga, J.L. Martinez

Published
1998

17. Wave-driven phase wave patterns in a ring of FitzHugh-Nagumo oscillators.

Author

Cebrián-Lacasa D, Leda M, Goryachev AB, and Gelens L

Abstract

We explore a biomimetic model that simulates a cell, with the internal cytoplasm represented by a two-dimensional circular domain and the external cortex by a surrounding ring, both modeled using FitzHugh-Nagumo systems. The external ring is dynamically influenced by a pacemaker-driven wave originating from the internal domain, leading to the emergence of three distinct dynamical states based on the varying strengths of coupling. The range of dynamics observed includes phase patterning, the propagation of phase waves, and interactions between traveling and phase waves. A simplified linear model effectively explains the mechanisms behind the variety of phase patterns observed, providing insights into the complex interplay between a cell's internal and external environments.

Published
2024
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18. Screening for anti-adipogenic, pro-lipolytic and thermogenic plant extracts by models associating intestinal epithelial cells with human adipose cells.

Author

Guillemet D, Belles C, Gomes A, Azalbert V, André M, Faresse N, Burcelin R, Lagarde JM, Lacasa D, and Kéophiphath M

Subjects
Adenosine Triphosphate metabolism, Adenosine Triphosphate pharmacology, Adipocytes, Adipose Tissue metabolism, Adipose Tissue, Brown, Caco-2 Cells, Humans, Lipids, Plant Extracts metabolism, Plant Extracts pharmacology, Coffee metabolism, Lipolysis
Abstract

Purpose: Excessive fat mass accumulation in obesity leads to diverse metabolic disorders, increased risks of cardiovascular diseases and in some cases, mortality. The aim of this study was to screen the actions of botanical extracts intended for oral use on human adipose tissue, using an in vitro screening model combining human intestinal cells with human adipose cells. This was to find the most effective extracts on lipid accumulation, UCP1 expression and ATP production in pre-adipocytes and on adipocyte lipolysis., Methods: In this study, 25 individual plant extracts were screened for their effects on human adipose cells. Consequently, an original in vitro model was set up using the Caco-2 cell line, to mimic the intestinal passage of the extracts and then exposing human adipose cells to them. The biological actions of extracts were thus characterized, and compared with a coffee extract standard. The most effective extracts, and their combinations, were retained for their actions on lipid accumulation, the expression of the thermogenic effector UCP1 and ATP production in pre-adipocytes as well as on lipolysis activity of mature adipocytes., Results: The biphasic culture system combining human Caco-2 cells with human adipose cells was verified as functional using the green coffee extract standard. Out of the 25 plant extracts studied, only 7 and their combinations were retained due to their potent effects on adipose cells biology. The data showed that compared to the coffee extract standard, Immortelle, Catechu, Carrot and Rose hip extracts were the most effective in reducing lipid accumulation and increased UCP1 expression in human pre-adipocytes., Conclusion: This study reveals the potential inhibitory effects on lipid accumulation and thermogenic activity of Immortelle, Catechu, Carrot and Rose hip extracts, and for the first time synergies in their combinations, using an in vitro model mimicking as closely as possible, human intestinal passage linked to adipose cells. These findings need to be confirmed by in vivo trials., (© 2022. The Author(s).)

Published
2022
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19. Increased Basement Membrane Components in Adipose Tissue During Obesity: Links With TGFβ and Metabolic Phenotypes.

Author

Reggio S, Rouault C, Poitou C, Bichet JC, Prifti E, Bouillot JL, Rizkalla S, Lacasa D, Tordjman J, and Clément K

Subjects
Adipocytes metabolism, Cells, Cultured, Collagen Type IV genetics, Collagen Type IV metabolism, Endothelial Cells metabolism, Female, Humans, Male, Middle Aged, Transforming Growth Factor beta1 genetics, Transforming Growth Factor beta3 genetics, Adipose Tissue metabolism, Basement Membrane metabolism, Obesity metabolism, Transforming Growth Factor beta1 metabolism, Transforming Growth Factor beta3 metabolism
Abstract

Context: Collagen accumulation around adipocytes and vessels (ie, pericellular fibrosis) is a hallmark of obese adipose tissue associated with altered metabolism., Objective: Our objective was to evaluate components of basement membrane (BM) in adipose tissue, including collagen IV, a major BM component, and its relationships with metabolic parameters and TGFβ isoforms., Design and Setting: We used immuno-techniques and gene expression approaches to detect BM components in subcutaneous and visceral adipose tissue samples. Adipocytes and endothelial cells were isolated from lean and obese adipose tissue. We also focused on the expression of COL4A1 correlated to metabolic variables in moderate obesity and, in severe obesity before and after bariatric surgery. Using in vitro analysis, we explored the impact of TGFβ isoforms on the expression of inflammatory and extracellular matrix genes in adipocytes and endothelial cells., Results: BM components were detected around adipocytes and endothelial cells, and were increased in obese adipocytes. COL4A1 expression was positively correlated with insulin-resistance indices in obese subjects and showed less reduction in severely obese subjects with poorer insulin-resistance outcomes 6 months after gastric bypass. COL4A1 expression also correlated with TGFβ1 and TGFβ3 gene expressions in subcutaneous adipose tissue. Stimulating isolated adipocytes and endothelial cells in vitro with these TGFβ isoforms showed an inflammatory and pro-fibrotic phenotype. However, TGFβ1 and TGFβ3 exposure only provoked COL4A1 overexpression in endothelial cells and not in adipocytes., Conclusion: The disorganization of several BM components, including collagen IV, could contribute to pathological alterations of obese adipose tissue and cells.

Published
2016
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20. Human Adipocytes Induce Inflammation and Atrophy in Muscle Cells During Obesity.

Author

Pellegrinelli V, Rouault C, Rodriguez-Cuenca S, Albert V, Edom-Vovard F, Vidal-Puig A, Clément K, Butler-Browne GS, and Lacasa D

Subjects
Adipocytes immunology, Adult, Animals, Atrophy immunology, Atrophy metabolism, Coculture Techniques, Cytokines immunology, Female, Gene Expression Regulation, Humans, Inflammation, Insulin-Like Growth Factor Binding Protein 5 pharmacology, Insulin-Like Growth Factor II pharmacology, Interleukin-10 immunology, Interleukin-10 metabolism, Interleukin-1beta immunology, Interleukin-1beta metabolism, Interleukin-6 immunology, Interleukin-6 metabolism, Intra-Abdominal Fat immunology, Intra-Abdominal Fat metabolism, Male, Mice, Mice, Obese, Muscle Fibers, Skeletal immunology, Muscle Fibers, Skeletal pathology, Obesity, Morbid immunology, Subcutaneous Fat cytology, Subcutaneous Fat immunology, Subcutaneous Fat metabolism, Tumor Necrosis Factor-alpha immunology, Tumor Necrosis Factor-alpha metabolism, Adipocytes metabolism, Contractile Proteins metabolism, Intra-Abdominal Fat cytology, Muscle Fibers, Skeletal metabolism, Obesity, Morbid metabolism
Abstract

Inflammation and lipid accumulation are hallmarks of muscular pathologies resulting from metabolic diseases such as obesity and type 2 diabetes. During obesity, the hypertrophy of visceral adipose tissue (VAT) contributes to muscle dysfunction, particularly through the dysregulated production of adipokines. We have investigated the cross talk between human adipocytes and skeletal muscle cells to identify mechanisms linking adiposity and muscular dysfunctions. First, we demonstrated that the secretome of obese adipocytes decreased the expression of contractile proteins in myotubes, consequently inducing atrophy. Using a three-dimensional coculture of human myotubes and VAT adipocytes, we showed the decreased expression of genes corresponding to skeletal muscle contractility complex and myogenesis. We demonstrated an increased secretion by cocultured cells of cytokines and chemokines with interleukin (IL)-6 and IL-1β as key contributors. Moreover, we gathered evidence showing that obese subcutaneous adipocytes were less potent than VAT adipocytes in inducing these myotube dysfunctions. Interestingly, the atrophy induced by visceral adipocytes was corrected by IGF-II/insulin growth factor binding protein-5. Finally, we observed that the skeletal muscle of obese mice displayed decreased expression of muscular markers in correlation with VAT hypertrophy and abnormal distribution of the muscle fiber size. In summary, we show the negative impact of obese adipocytes on muscle phenotype, which could contribute to muscle wasting associated with metabolic disorders., (© 2015 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.)

Published
2015
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21. Endothelial cells from visceral adipose tissue disrupt adipocyte functions in a three-dimensional setting: partial rescue by angiopoietin-1.

Author

Pellegrinelli V, Rouault C, Veyrie N, Clément K, and Lacasa D

Subjects
Animals, Cell Culture Techniques, Humans, Inflammation, Insulin, Lipolysis physiology, Obesity metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Adipocytes physiology, Adipose Tissue cytology, Angiopoietin-1 pharmacology, Endothelial Cells physiology
Abstract

During obesity, chronic inflammation of human white adipose tissue (WAT) is associated with metabolic and vascular alterations. Endothelial cells from visceral WAT (VAT-ECs) exhibit a proinflammatory and senescent phenotype and could alter adipocyte functions. We aimed to determine the contribution of VAT-ECs to adipocyte dysfunction related to inflammation and to rescue these alterations by anti-inflammatory strategies. We developed an original three-dimensional setting allowing maintenance of unilocular adipocyte functions. Coculture experiments demonstrated that VAT-ECs provoked a decrease in the lipolytic activity, adipokine secretion, and insulin sensitivity of adipocytes from obese subjects, as well as an increased production of several inflammatory molecules. Interleukin (IL)-6 and IL-1β were identified as potential actors in these adipocyte alterations. The inflammatory burst was not observed in cocultured cells from lean subjects. Interestingly, pericytes, in functional interactions with ECs, exhibited a proinflammatory phenotype with diminished angiopoietin-1 (Ang-1) secretion in WAT from obese subjects. Using the anti-inflammatory Ang-1, we corrected some deleterious effects of WAT-ECs on adipocytes, improving lipolytic activity and insulin sensitivity and reducing the secretion of proinflammatory molecules. In conclusion, we identified a negative impact of VAT-ECs on adipocyte functions during human obesity. Therapeutic options targeting EC inflammation could prevent adipocyte alterations that contribute to obesity comorbidities.

Published
2014
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22. Roles of chemokine ligand-2 (CXCL2) and neutrophils in influencing endothelial cell function and inflammation of human adipose tissue.

Author

Rouault C, Pellegrinelli V, Schilch R, Cotillard A, Poitou C, Tordjman J, Sell H, Clément K, and Lacasa D

Subjects
Adipose Tissue, White pathology, Adult, Case-Control Studies, Cell Adhesion physiology, Chemokine CXCL2 genetics, Chemokines physiology, Endothelial Cells pathology, Endothelial Cells physiology, Female, Humans, Inflammation etiology, Inflammation pathology, Inflammation physiopathology, Inflammation Mediators physiology, Neutrophil Activation physiology, Neutrophils pathology, Obesity, Morbid genetics, Obesity, Morbid pathology, RNA, Messenger genetics, RNA, Messenger metabolism, Adipose Tissue, White physiopathology, Chemokine CXCL2 physiology, Neutrophils physiology, Obesity, Morbid physiopathology
Abstract

The hypertrophied white adipose tissue (WAT) during human obesity produces inflammatory mediators, including cytokines (IL-6 and TNFα) and chemokines ([C-C motif] chemokine ligand 2 and IL-8). These inflammatory factors are preferentially produced by the nonadipose cells, particularly the adipose tissue infiltrating macrophages. We identified the chemokine (C-X-C motif) ligand 2 (CXCL2) by a transcriptomic approach. Because CXCL2 could represent a WAT-produced chemokine, we explored its role in obesity-associated inflammation. CXCL2 levels in serum and mRNA in WAT were higher in obese subjects compared with lean ones. CXCL2 secretions were higher in sc and visceral (vis) WAT from obese compared with lean subjects. In vis WAT, CXCL2 mRNA expression was higher in macrophages compared with other WAT cells and positively correlated with the inflammatory macrophage markers TNFα and IL-6. CXCL2 triggered the in vitro adhesion of the neutrophils, its selective cell targets, to endothelial cells (ECs) of vis WAT (vis WAT-ECs). Immunohistological analysis indicated that activated neutrophils were adherent to the endothelium of vis WAT from human obese subjects. Blood neutrophils from obese subjects released high levels of proinflammatory mediators (IL-8, chemokine motif ligand 2 [CCL2], matrix metalloproteinase [MMP] 9, and myeloperoxidase [MPO]). Visceral WAT-ECs, treated by neutrophil-conditioned media prepared from obese subjects, displayed an increase of the expression of inflammatory molecules associated with senescence and angiogenic capacities. To conclude, CXCL2, a WAT-produced chemokine being up-regulated in obesity, stimulates neutrophil adhesion to vis WAT-ECs. Activated neutrophils in obesity may influence vis WAT-ECs functions and contribute to WAT inflammation.

Published
2013
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23. Mast cells in human adipose tissue: link with morbid obesity, inflammatory status, and diabetes.

Author

Divoux A, Moutel S, Poitou C, Lacasa D, Veyrie N, Aissat A, Arock M, Guerre-Millo M, and Clément K

Subjects
Adipose Tissue, White pathology, Adult, Biomarkers analysis, Blood Glucose metabolism, Cell Count, Cell Separation, Chymases chemistry, Endothelial Cells pathology, Female, Fibrosis pathology, Homeostasis physiology, Humans, Immunohistochemistry, Lipids blood, Liver Function Tests, Male, Middle Aged, Obesity, Morbid metabolism, Phenotype, Real-Time Polymerase Chain Reaction, Tryptases chemistry, Adipose Tissue pathology, Diabetes Mellitus, Type 2 pathology, Inflammation pathology, Mast Cells pathology, Obesity, Morbid pathology
Abstract

Aims and Hypothesis: Mast cells are immune cells known for their role in several inflammatory and fibrotic diseases. Recent works in mice suggest that mast cells could be cellular actors involved in the pathophysiology of obesity, a disease characterized by white adipose tissue (WAT) and systemic inflammation. The aim of the study was to better characterize mast cells in WAT of obese with or without type 2 diabetes and lean subjects as well as to explore the relationship with WAT inflammation and fibrosis., Methods: Subcutaneous and omental adipose tissue from six lean subjects, 10 obese nondiabetic, and 10 diabetic patients was analyzed by immunohistochemistry and real-time PCR for inflammatory and fibrosis markers. Cytokines secretion of mast cells isolated from WAT and cultured in different conditions was estimated by cytokine array kit., Results: We found that mast cells are activated in human adipose tissue and localized preferentially in fibrosis depots, a local condition that stimulates their inflammatory state. Mast cells with tryptase(+) chymase(+) staining tended to be higher in obese omental adipose tissue. We found positive links between mast cell number and several characteristics of obese WAT including fibrosis, macrophage accumulation, and endothelial cell inflammation. Mast cell number and their inflammatory phenotype are associated with diabetes parameters., Conclusion and Interpretation: Mast cells are cellular actors of WAT inflammation and possibly fibrotic state found in obesity and diabetes. Whether mast cells could be involved in the pathophysiology of diabetes needs additional study as well as the positioning of these cells in driving pathological alterations of WAT in these chronic metabolic diseases.

Published
2012
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24. Fibrosis in human adipose tissue: composition, distribution, and link with lipid metabolism and fat mass loss.

Author

Divoux A, Tordjman J, Lacasa D, Veyrie N, Hugol D, Aissat A, Basdevant A, Guerre-Millo M, Poitou C, Zucker JD, Bedossa P, and Clément K

Subjects
Adipose Tissue metabolism, Adipose Tissue, White metabolism, Azo Compounds metabolism, Biopsy, Body Composition, Collagen metabolism, Collagen Type VI metabolism, Female, Fibrosis metabolism, Humans, Lipid Metabolism, Male, Obesity pathology, Obesity, Morbid metabolism, Omentum metabolism, Polymerase Chain Reaction methods, Surgical Procedures, Operative methods, Thinness genetics, Thinness metabolism, Adipose Tissue pathology, Adipose Tissue, White pathology, Fibrosis pathology, Obesity metabolism, Obesity, Morbid pathology, Omentum pathology
Abstract

Objective: Fibrosis is a newly appreciated hallmark of the pathological alteration of human white adipose tissue (WAT). We investigated the composition of subcutaneous (scWAT) and omental WAT (oWAT) fibrosis in obesity and its relationship with metabolic alterations and surgery-induced weight loss., Research Design and Methods: Surgical biopsies for scWAT and oWAT were obtained in 65 obese (BMI 48.2 ± 0.8 kg/m(2)) and 9 lean subjects (BMI 22.8 ± 0.7 kg/m(2)). Obese subjects who were candidates for bariatric surgery were clinically characterized before, 3, 6, and 12 months after surgery, including fat mass evaluation by dual energy X-ray absorptiometry. WAT fibrosis was quantified and characterized using quantitative PCR, microscopic observation, and immunohistochemistry., Results: Fibrosis amount, distribution and collagen types (I, III, and VI) present distinct characteristics in lean and obese subjects and with WAT depots localization (subcutaneous or omental). Obese subjects had more total fibrosis in oWAT and had more pericellular fibrosis around adipocytes than lean subjects in both depots. Macrophages and mastocytes were highly represented in fibrotic bundles in oWAT, whereas scWAT was more frequently characterized by hypocellular fibrosis. The oWAT fibrosis negatively correlated with omental adipocyte diameters (R = -0.30, P = 0.02), and with triglyceride levels (R = -0.42, P < 0.01), and positively with apoA1 (R = 0.25, P = 0.05). Importantly, scWAT fibrosis correlated negatively with fat mass loss measured at the three time points after surgery., Conclusions: Our data suggest differential clinical consequences of fibrosis in human WAT. In oWAT, fibrosis could contribute to limit adipocyte hypertrophy and is associated with a better lipid profile, whereas scWAT fibrosis may hamper fat mass loss induced by surgery.

Published
2010
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25. Activin a plays a critical role in proliferation and differentiation of human adipose progenitors.

Author

Zaragosi LE, Wdziekonski B, Villageois P, Keophiphath M, Maumus M, Tchkonia T, Bourlier V, Mohsen-Kanson T, Ladoux A, Elabd C, Scheideler M, Trajanoski Z, Takashima Y, Amri EZ, Lacasa D, Sengenes C, Ailhaud G, Clément K, Bouloumie A, Kirkland JL, and Dani C

Subjects
Activins genetics, Activins pharmacology, Adipose Tissue drug effects, Adipose Tissue pathology, Adult, Cell Differentiation, Cell Division, DNA-Directed RNA Polymerases drug effects, DNA-Directed RNA Polymerases genetics, Dexamethasone pharmacology, Gene Expression Regulation, Glucosephosphate Dehydrogenase drug effects, Humans, Obesity, Morbid genetics, Obesity, Morbid prevention & control, Reverse Transcriptase Polymerase Chain Reaction, Stem Cells drug effects, Stem Cells pathology, TATA-Box Binding Protein drug effects, TATA-Box Binding Protein genetics, Activins physiology, Adipose Tissue cytology, Glucosephosphate Dehydrogenase genetics, Obesity, Morbid pathology, Stem Cells cytology, Thinness pathology
Abstract

Objective: Growth of white adipose tissue takes place in normal development and in obesity. A pool of adipose progenitors is responsible for the formation of new adipocytes and for the potential of this tissue to expand in response to chronic energy overload. However, factors controlling self-renewal of human adipose progenitors are largely unknown. We investigated the expression profile and the role of activin A in this process., Research Design and Methods: Expression of INHBA/activin A was investigated in three types of human adipose progenitors. We then analyzed at the molecular level the function of activin A during human adipogenesis. We finally investigated the status of activin A in adipose tissues of lean and obese subjects and analyzed macrophage-induced regulation of its expression., Results: INHBA/activin A is expressed by adipose progenitors from various fat depots, and its expression dramatically decreases as progenitors differentiate into adipocytes. Activin A regulates the number of undifferentiated progenitors. Sustained activation or inhibition of the activin A pathway impairs or promotes, respectively, adipocyte differentiation via the C/EBPβ-LAP and Smad2 pathway in an autocrine/paracrine manner. Activin A is expressed at higher levels in adipose tissue of obese patients compared with the expression levels in lean subjects. Indeed, activin A levels in adipose progenitors are dramatically increased by factors secreted by macrophages derived from obese adipose tissue., Conclusions: Altogether, our data show that activin A plays a significant role in human adipogenesis. We propose a model in which macrophages that are located in adipose tissue regulate adipose progenitor self-renewal through activin A.

Published
2010
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26. CCL5 promotes macrophage recruitment and survival in human adipose tissue.

Author

Keophiphath M, Rouault C, Divoux A, Clément K, and Lacasa D

Subjects
Adipose Tissue, White cytology, Adipose Tissue, White metabolism, Apoptosis immunology, Biopsy, Body Weight immunology, CD11b Antigen metabolism, Cell Adhesion immunology, Cell Movement immunology, Cell Survival immunology, Chemokine CCL5 genetics, Female, Humans, Inflammation metabolism, Inflammation pathology, Interleukin-6 metabolism, Macrophages cytology, Obesity, Morbid metabolism, Obesity, Morbid pathology, RNA, Messenger metabolism, Tumor Necrosis Factor-alpha metabolism, Adipose Tissue, White immunology, Chemokine CCL5 blood, Chemokine CCL5 immunology, Inflammation immunology, Macrophages immunology, Obesity, Morbid immunology
Abstract

Objective: To examine the role of adipose-produced chemokine, chemokine ligand (CCL) 5, on the recruitment and survival of macrophages in human white adipose tissue (WAT)., Methods and Results: CCL5 levels measured by enzyme immunoassay in serum and by real-time polymerase chain reaction in WAT were higher in obese compared to lean subjects. CCL5, but not CCL2, secretion was higher in visceral compared to subcutaneous WAT. CCL5 mRNA expression was positively correlated with the inflammatory macrophage markers as CD11b, tumor necrosis factor-alpha, and IL-6 in visceral WAT (n=24 obese subjects), and was higher in macrophages than other WAT cells. We found that CCL5 triggered adhesion and transmigration of blood monocytes to/through endothelial cells of human WAT. Whereas in obese WAT apoptotic macrophages were located around necrotic adipocytes, we demonstrated that CCL5, but not CCL2, protected macrophages from free cholesterol-induced apoptosis via activation of the Akt/Erk pathways., Conclusions: CCL5 could participate in the inflammation of obese WAT by recruiting blood monocytes and exerting antiapoptotic properties on WAT macrophages. This specific role of CCL5 on macrophage survival with maintenance of their lipid scavenging function should be taken into account for future therapeutic strategies in obesity-related diseases.

Published
2010
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27. 1,2-vinyldithiin from garlic inhibits differentiation and inflammation of human preadipocytes.

Author

Keophiphath M, Priem F, Jacquemond-Collet I, Clément K, and Lacasa D

Subjects
Adipocytes drug effects, Adiponectin genetics, Anti-Inflammatory Agents pharmacology, Carrier Proteins, Female, Humans, Leptin genetics, PPAR gamma drug effects, PPAR gamma metabolism, Perilipin-1, Phosphoproteins drug effects, Phosphoproteins genetics, Young Adult, Adipocytes cytology, Anti-Obesity Agents pharmacology, Cell Differentiation drug effects, Garlic, Inflammation prevention & control, Plant Extracts pharmacology
Abstract

Obesity is a state of chronic low-grade inflammation. Limiting white adipose tissue (WAT) expansion and therefore reducing inflammation could be effective in preventing the progression of obesity and the development of associated complications. We investigated the effects of 1,2-vinyldithiin (1,2-DT), a garlic-derived organosulfur, on the differentiation and inflammatory state of human preadipocytes. Preadipocytes were prepared from subcutaneous adipose tissue of nonobese young women and differentiated in the presence of 1,2-DT. Inflammatory preadipocytes were obtained following treatment with human macrophage-secreted factors. 1,2-DT (100 micromol/L) significantly reduced gene expression of PPARgamma2 (-40%), CCAAT/enhancer binding protein-alpha (-25%), lipoprotein lipase (-22%), leptin (-30%), and adiponectin (-15%). Lipid accumulation was also significantly diminished in preadipocytes differentiated in the presence of 100 micromol/L 1,2-DT (-37%) compared with controls. Furthermore, 100 micromol/L 1,2-DT treatment for 10 d significantly reduced PPARgamma activity (-27%). The protein expression of perilipin and the secretion levels for 2 adipokines, leptin and adiponectin, were significantly diminished in 1,2-DT-cultured preadipocytes (-37, -51, and -43%, respectively). Moreover, the secretion of inflammatory molecules (interleukin-6 and monocyte chemoattractant protein-1) induced by macrophage-secreted factors was partially abolished in 100 micromol/L 1,2-DT-treated preadipocytes (-28 and -25%, respectively). In conclusion, we demonstrated that 1,2-DT, a garlic-derived organosulfur, has antiadipogenic and antiinflammatory actions on human preadipocytes and may be a novel, antiobesity nutraceutical.

Published
2009
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28. Macrophage-secreted factors promote a profibrotic phenotype in human preadipocytes.

Author

Keophiphath M, Achard V, Henegar C, Rouault C, Clément K, and Lacasa D

Subjects
Base Sequence, Cell Adhesion, Cell Communication, Cell Differentiation, Cell Movement, Cell Proliferation, Cells, Cultured, Culture Media, Conditioned, Extracellular Matrix Proteins genetics, Fibrosis, Gene Expression, Genes, bcl-1, Humans, Inflammation genetics, Inflammation pathology, Inflammation physiopathology, Models, Biological, Obesity pathology, Obesity physiopathology, Phenotype, RNA, Small Interfering genetics, Transcription Factor RelA antagonists & inhibitors, Transcription Factor RelA genetics, Adipocytes, White cytology, Adipocytes, White physiology, Macrophages metabolism
Abstract

White adipose tissue (WAT) in obese humans is characterized by macrophage accumulation the effects of which on WAT biology are not fully understood. We previously demonstrated that macrophage-secreted factors impair preadipocyte differentiation and induce inflammation, and we described the excessive fibrotic deposition in WAT from obese individuals. Microarray analysis revealed significant overexpression of extracellular matrix (ECM) genes in inflammatory preadipocytes. We show here an organized deposition of fibronectin, collagen I, and tenascin-C and clustering of the ECM receptor alpha5 integrin, characterizing inflammatory preadipocytes. Anti-alpha5 integrin-neutralizing antibody decreased proliferation of these cells, underlining the importance of the fibronectin/integrin partnership. Fibronectin-cultured preadipocytes exhibited increased proliferation and expression of both nuclear factor-kappaB and cyclin D1. Small interfering RNA deletion of nuclear factor-kappaB and cyclin D1 showed that these factors link preadipocyte proliferation with inflammation and ECM remodeling. Macrophage-secreted molecules increased preadipocyte migration through an increase in active/phosphorylated focal adhesion kinase. Gene expression and neutralizing antibody experiments suggest that inhibin beta A, a TGF-beta family member, is a major fibrotic factor. Interactions between preadipocytes and macrophages were favored in a three-dimensional collagen I matrix mimicking the fibrotic context of WAT. Cell-rich regions were immunostained for preadipocytes, proliferation, and macrophages in the vicinity of fibrotic WAT from obese individuals. In conclusion, an inflammatory environment leads to profound modifications of the human preadipocyte phenotype, producing fibrotic components with increased migration and proliferation. This phenomenon might play a role in facilitating the constitution of quiescent preadipocyte pools and eventually in the maintenance and aggravation of increased fat mass in obesity.

Published
2009
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29. Adipose tissue transcriptomic signature highlights the pathological relevance of extracellular matrix in human obesity.

Author

Henegar C, Tordjman J, Achard V, Lacasa D, Cremer I, Guerre-Millo M, Poitou C, Basdevant A, Stich V, Viguerie N, Langin D, Bedossa P, Zucker JD, and Clement K

Subjects
Adipose Tissue pathology, Adipose Tissue, White metabolism, Adipose Tissue, White pathology, Bariatric Surgery, Fibrosis, Humans, Inflammation, Obesity pathology, Weight Loss, Adipose Tissue metabolism, Extracellular Matrix pathology, Gene Expression Profiling, Obesity genetics
Abstract

Background: Investigations performed in mice and humans have acknowledged obesity as a low-grade inflammatory disease. Several molecular mechanisms have been convincingly shown to be involved in activating inflammatory processes and altering cell composition in white adipose tissue (WAT). However, the overall importance of these alterations, and their long-term impact on the metabolic functions of the WAT and on its morphology, remain unclear., Results: Here, we analyzed the transcriptomic signature of the subcutaneous WAT in obese human subjects, in stable weight conditions and after weight loss following bariatric surgery. An original integrative functional genomics approach was applied to quantify relations between relevant structural and functional themes annotating differentially expressed genes in order to construct a comprehensive map of transcriptional interactions defining the obese WAT. These analyses highlighted a significant up-regulation of genes and biological themes related to extracellular matrix (ECM) constituents, including members of the integrin family, and suggested that these elements could play a major mediating role in a chain of interactions that connect local inflammatory phenomena to the alteration of WAT metabolic functions in obese subjects. Tissue and cellular investigations, driven by the analysis of transcriptional interactions, revealed an increased amount of interstitial fibrosis in obese WAT, associated with an infiltration of different types of inflammatory cells, and suggest that phenotypic alterations of human pre-adipocytes, induced by a pro-inflammatory environment, may lead to an excessive synthesis of ECM components., Conclusion: This study opens new perspectives in understanding the biology of human WAT and its pathologic changes indicative of tissue deterioration associated with the development of obesity.

Published
2008
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30. Nongenomic estrogen effects on nitric oxide synthase activity in rat adipocytes.

Author

Jaubert AM, Mehebik-Mojaat N, Lacasa D, Sabourault D, Giudicelli Y, and Ribière C

Subjects
Adipocytes, White drug effects, Animals, Cyclic AMP-Dependent Protein Kinases antagonists & inhibitors, Cyclic AMP-Dependent Protein Kinases metabolism, Enzyme Activation drug effects, Female, Genomics, Male, Mitogen-Activated Protein Kinase 1 antagonists & inhibitors, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 antagonists & inhibitors, Mitogen-Activated Protein Kinase 3 metabolism, Phosphatidylinositol 3-Kinases metabolism, Phosphoinositide-3 Kinase Inhibitors, Protein Kinase Inhibitors pharmacology, Rats, Rats, Sprague-Dawley, Receptors, Estrogen metabolism, Serine metabolism, Serum Albumin, Bovine pharmacology, Adipocytes, White enzymology, Estradiol pharmacology, Nitric Oxide Synthase Type III metabolism
Abstract

Estrogens exert multiple genomic effects on adipose tissue through binding to nuclear estrogen receptors. However, there is evidence for additional nongenomic mechanisms whereby estrogens may exert their control on adipose tissue metabolism through rapid activation of various membrane-initiated kinase cascades. Here, we tested rapid effects of estrogens on nitric oxide production in white adipose tissue using 17-beta estradiol (E2) and its membrane impermeant albumin conjugated form (17-beta estradiol hemisuccinate BSA, E2-BSA). We found that both E2 and E2-BSA stimulate nitric oxide synthase (NOS) activity in adipocytes. These effects were abolished by 1) ICI 182-780, a selective estrogen receptor antagonist; 2) wortmannin, an inhibitor of phosphatidylinositol 3-kinase; and 3) N-[2-(p-bromocinnamylamino) ethyl]-5-isoquinolinesulfonamide (H-89) an inhibitor of protein kinase A. In contrast to NOS activation by E2, E2-BSA-induced NOS activity was abolished by UO126, an inhibitor of MAPK kinase/ERK (p42/p44 MAPKs). Immunoblotting studies have shown that both estrogens phosphorylate endothelial NOS (NOS III) on Ser(1179), an effect that is prevented by wortmannin and H89, suggesting that NOS III is the target for estrogen-induced NOS activity. Furthermore, only the E2-BSA-induced NOS III phosphorylation on Ser(1179) was totally abolished by UO126. These results indicate that the signaling cascades involved in adipocyte NOS stimulation by estrogens are different depending on whether estrogens are free or conjugated to albumin and therefore underline the importance of estrogen receptor locations in the nongenomic actions of estrogens in these cells.

Published
2007
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31. Macrophage-secreted factors impair human adipogenesis: involvement of proinflammatory state in preadipocytes.

Author

Lacasa D, Taleb S, Keophiphath M, Miranville A, and Clement K

Subjects
Adipose Tissue metabolism, Biomarkers metabolism, Cell Differentiation, Cell Proliferation drug effects, Cells, Cultured, Chemokines metabolism, Culture Media pharmacology, Cyclin D1 genetics, Cytokines metabolism, Female, Gene Expression drug effects, Humans, Inflammation pathology, Inflammation Mediators metabolism, Lipid Metabolism drug effects, Lipopolysaccharides pharmacology, Macrophages drug effects, NF-kappa B metabolism, Signal Transduction drug effects, Stem Cells metabolism, Adipocytes pathology, Adipogenesis drug effects, Inflammation physiopathology, Macrophages metabolism, Stem Cells pathology
Abstract

Obesity is considered a chronic low-grade inflammatory state. The white adipose tissue produces a variety of inflammation-related proteins whose expression is increased in obese subjects. The nonadipose cell fraction, which includes infiltrated macrophages, is a determinant source of inflammation-related molecules within the adipose tissue. Our working hypothesis is that macrophage infiltration affects fat expansion through a paracrine action on adipocyte differentiation. Human primary preadipocytes were then differentiated in the presence of conditioned media obtained from macrophages differentiated from blood monocytes. Preadipocytes treated by macrophage-conditioned medium displayed marked reduction of adipogenesis as assessed by decreased cellular lipid accumulation and reduced gene expression of adipogenic and lipogenic markers. In addition to this effect, the activation of macrophages by lipopolysaccharides stimulated nuclear factor kappaB signaling, increased gene expression and release of proinflammatory cytokines and chemokines, and induced preadipocyte proliferation. This phenomenon was associated with increased cyclin D1 gene expression and maintenance of the fibronectin-rich matrix. Anti-TNFalpha neutralizing antibody inhibits the inflammatory state of preadipocytes positioning TNFalpha as an important mediator of inflammation in preadipocytes. Strikingly, conditioned media produced by macrophages isolated from human adipose tissue exerted comparable effects with activated macrophages, i.e. decreased adipogenesis and increased inflammatory state in the preadipocytes. These data show that macrophage-secreted factors inhibit the formation of mature adipocytes, suggesting possible role in limiting adipose tissue expansion in humans.

Published
2007
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32. Cathepsin s promotes human preadipocyte differentiation: possible involvement of fibronectin degradation.

Author

Taleb S, Cancello R, Clément K, and Lacasa D

Subjects
Adipose Tissue growth & development, Adipose Tissue physiology, Blotting, Western, Cathepsins biosynthesis, Cell Differentiation drug effects, Cells, Cultured, Culture Media, Cystatin C, Cystatins metabolism, Extracellular Matrix metabolism, Fluorescent Antibody Technique, Humans, Immunohistochemistry, Kinetics, RNA analysis, RNA biosynthesis, Stem Cells drug effects, Adipocytes enzymology, Adipocytes physiology, Cathepsins physiology, Fibronectins metabolism
Abstract

We previously showed that the cysteine protease cathepsin S (CTSS), known to degrade several components of the extracellular matrix (ECM), is produced by human adipose cells and increased in obesity. Because ECM remodeling is a key process associated with adipogenesis, this prompted us to assess the potential role of CTSS to promote preadipocyte differentiation. Kinetic studies in primary human preadipocytes revealed a modest increase in CTSS gene expression and secretion at the end of differentiation. CTSS activity was maximal in preadipocyte culture medium but decreased thereafter, fitting with increased release of the CTSS endogenous inhibitor, cystatin C, during differentiation. Inhibition of CTSS activity by an exogenous-specific inhibitor added along the differentiation, resulted in a 2-fold reduction of lipid content and expression of adipocyte markers in differentiated cells. Conversely, the treatment of preadipocytes with human recombinant CTSS increased adipogenesis. Moreover, CTSS supplementation in preadipocyte media markedly reduced the fibronectin network, a key preadipocyte-ECM component, the decrease of which is required for adipogenesis. Using immunohistochemistry on serial sections of adipose tissue of obese subjects, we showed that adipose cells staining positive for CTSS are mainly located in the vicinity of fibrosis regions containing fibronectin. Herein we propose that CTSS may promote human adipogenesis, at least in part, by degrading fibronectin in the early steps of differentiation. Taken together, these results indicate that CTSS released locally by preadipocytes promotes adipogenesis, suggesting a possible contribution of this protease to fat mass expansion in obesity.

Published
2006
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33. Weight loss reduces adipose tissue cathepsin S and its circulating levels in morbidly obese women.

Author

Taleb S, Cancello R, Poitou C, Rouault C, Sellam P, Levy P, Bouillot JL, Coussieu C, Basdevant A, Guerre-Millo M, Lacasa D, and Clement K

Subjects
Adult, Blood Vessels enzymology, Body Mass Index, Body Weight, Cathepsins blood, Cell Culture Techniques, Female, Humans, Obesity, Morbid physiopathology, Reference Values, Thinness, Adipose Tissue enzymology, Cathepsins metabolism, Obesity, Morbid blood, Obesity, Morbid surgery, Weight Loss
Abstract

Context: Human adipose tissue produces several adipokines, including the newly identified protein cathepsin S (CTSS), a cysteine protease involved in the pathogenesis of atherosclerosis. Obesity is characterized by high levels of CTSS in the circulation and in sc white adipose tissue (scWAT)., Objective: We investigated the effect of surgery-induced weight loss on circulating CTSS and its protein expression in scWAT., Design: Fifty morbidly obese women before and 3 months after surgery and 10 healthy lean women were studied. We analyzed the relationships between circulating CTSS and clinical and biological parameters. Immunohistochemistry of the CTSS protein variations in scWAT was performed., Results: Weight loss decreased by 42% (P < 0.0001) the circulating CTSS levels, which correlated with changes in body weight (P = 0.03). We observed a significant decrease in CTSS enzymatic activity by 25% after weight loss (P = 0.001). Adipose tissue CTSS content was reduced by 30% (P = 0.002) after surgery. The variations in CTSS expression in scWAT after surgery correlated with changes in circulating CTSS serum levels (P = 0.03). Most of the correlations between CTSS and clinical and biological parameters disappeared after adjustment for body mass index, emphasizing the strong link between CTSS and corpulence in humans., Conclusions: Changes in CTSS scWAT might contribute to serum variations in CTSS during weight loss. The decrease in CTSS concentrations in the circulation may contribute to vascular improvement in obese subjects after weight loss.

Published
2006
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34. [Is obesity an inflammatory disease?].

Author

Cancello R, Taleb S, Poitou C, Tordjman J, Lacasa D, Guerre-Millo M, and Clément K

Subjects
Adipose Tissue immunology, Animals, Humans, Macrophages immunology, Obesity immunology, Inflammation complications, Obesity etiology
Published
2006

35. Cathepsin S, a novel biomarker of adiposity: relevance to atherogenesis.

Author

Taleb S, Lacasa D, Bastard JP, Poitou C, Cancello R, Pelloux V, Viguerie N, Benis A, Zucker JD, Bouillot JL, Coussieu C, Basdevant A, Langin D, and Clement K

Subjects
Adipocytes metabolism, Biomarkers, Cathepsins biosynthesis, Cathepsins blood, Extracellular Matrix Proteins metabolism, Female, Gene Expression Profiling, Humans, Muscle, Smooth, Vascular chemistry, Obesity complications, Obesity metabolism, RNA, Messenger analysis, Adipose Tissue metabolism, Adiposity, Atherosclerosis etiology, Cathepsins genetics
Abstract

The molecular mechanisms by which obesity increases the risk of cardiovascular diseases are poorly understood. The purpose of this study was to identify candidate biomarkers overexpressed in adipose tissue of obese subjects that could link expanded fat mass to atherosclerosis. We compared gene expression profile in subcutaneous adipose tissue (scWAT) of 28 obese and 11 lean subjects using microarray technology. This analysis identified 240 genes significantly overexpressed in scWAT of obese subjects. The genes were then ranked according to the correlation between gene expression and body mass index (BMI). In this list, the elastolytic cysteine protease cathepsin S was among the highly correlated genes. RT-PCR and Western blotting confirmed the increase in cathepsin S mRNA (P=0.006) and protein (P<0.05) in obese scWAT. The circulating concentrations of cathepsin S were also significantly higher in obese than in nonobese subjects (P<0.0001). Both cathepsin S mRNA in scWAT and circulating levels were positively correlated with BMI, body fat, and plasma triglyceride levels. In addition, we show that the proinflammatory factors, lipopolysaccharide, interleukin-1beta, and tumor necrosis factor-alpha increase cathepsin S secretion in human scWAT explants. This study identifies cathepsin S as a novel marker of adiposity. Since this enzyme has been implicated in the development of atherosclerotic lesions, we propose that cathepsin S represents a molecular link between obesity and atherosclerosis.

Published
2005
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36. Monitoring the activation state of the insulin-like growth factor-1 receptor and its interaction with protein tyrosine phosphatase 1B using bioluminescence resonance energy transfer.

Author

Blanquart C, Boute N, Lacasa D, and Issad T

Subjects
Bacterial Proteins genetics, Cell Line, Dose-Response Relationship, Drug, Energy Transfer, Humans, Insulin pharmacology, Insulin-Like Growth Factor I pharmacology, Insulin-Like Growth Factor II pharmacology, Luminescent Measurements, Luminescent Proteins genetics, Phosphorylation, Protein Binding, Protein Tyrosine Phosphatase, Non-Receptor Type 1, Receptor, IGF Type 1 genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Protein Tyrosine Phosphatases metabolism, Receptor, IGF Type 1 metabolism
Abstract

We have developed two bioluminescence resonance energy transfer (BRET)-based approaches to monitor 1) ligand-induced conformational changes within partially purified insulin-like growth factor-1 (IGF-1) receptors (IGF1R) and 2) IGF1R interaction with a substrate-trapping mutant of protein tyrosine phosphatase 1B (PTP1B-D181A) in living cells. In the first assay, human IGF1R fused to Renilla reniformis luciferase (Rluc) or yellow fluorescent protein (YFP) were cotransfected in human embryonic kidney (HEK)-293 cells. The chimeric receptors were then partially purified by wheat germ lectin chromatography, and BRET measurements were performed in vitro. In the second assay, BRET measurements were performed on living HEK-293 cells cotransfected with IGF1R-Rluc and YFP-PTP1B-D181A. Ligand-induced conformational changes within the IGF1R and interaction of the IGF1R with PTP1B could be detected as an energy transfer between Rluc and YFP. Dose-response experiments with IGF-1, IGF-2, and insulin demonstrated that the effects of these ligands on BRET correlate well with their known pharmacological properties toward the IGF1R. Inhibition of IGF1R autophosphorylation by the tyrphostin AG1024 (3-bromo-5-t-butyl-4-hydroxy-benzylidenemalonitrile) resulted in the inhibition of IGF1-induced BRET signal between the IGF1R and PTP1B. In addition, an anti-IGF1R antibody known to inhibit the biological effects of IGF-1 inhibited ligand-induced BRET signal within the IGF1R, as well as between IGF1R and PTP1B. This inhibition of BRET signal paralleled the inhibition of the ligand-induced autophosphorylation of the IGF1R by this antibody. In conclusion, these BRET-based assays permit 1) the rapid evaluation of the effects of agonists or inhibitory molecules on IGF1R activation and 2) the analysis of the regulation of IGF1R-PTP1B interaction in living cells.

Published
2005
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37. Cholesterol regulation of genes involved in sterol trafficking in human THP-1 macrophages.

Author

Llaverias G, Lacasa D, Vázquez-Carrera M, Sánchez RM, Laguna JC, and Alegret M

Subjects
ATP Binding Cassette Transporter 1, ATP Binding Cassette Transporter, Subfamily G, Member 1, ATP-Binding Cassette Transporters metabolism, CD36 Antigens, Cells, Cultured, Cholestanetriol 26-Monooxygenase, Humans, Lipoproteins, LDL metabolism, Macrophages metabolism, Protein Transport, RNA, Messenger metabolism, Receptors, Immunologic metabolism, Receptors, Scavenger, Scavenger Receptors, Class A, Scavenger Receptors, Class B, Steroid Hydroxylases metabolism, Biomarkers metabolism, Cholesterol pharmacology, Gene Expression Regulation drug effects, Macrophages drug effects
Abstract

Modulation of the expression of genes involved in the control of cholesterol homeostasis by sterols in macrophages is crucial to foam cell formation. To characterize this regulation in THP-1 macrophages, we examined the effect of sterol loading and unloading on the expression of a number of genes that participate in lipoprotein uptake and cholesterol efflux. Sterol loading by exposure to acetylated LDL for 24 h resulted in an increase in free and esterified cholesterol of 1.4 and 1.8-fold, respectively. Under these conditions, the mRNA levels for SR-A were reduced a 59%, while those of CYP27 were increased by 4.6-fold. However, the expression of other genes involved in cholesterol efflux (ABCA1, ABCG1 and CLA-1) was not modified, despite a high intracellular cholesterol accumulation specially in the form of esterified cholesterol. On the other hand, HDL exposure reduced intracellular cholesterol content to 70%, and caused an increase in the expression of CD36 (78%), SR-A (51%) and CLA-1 (136%). Conversely, the expression of ABCA1, ABCG1 and CYP27 was decreased by 49, 67 and 57%, respectively. These findings indicate that in THP-1 macrophages, the expression of genes for receptors involved in lipoprotein binding and uptake tends to decrease upon cholesterol loading and to increase by cholesterol depletion, while the opposite pattern is found regarding the mRNA levels for proteins involved in cholesterol efflux.

Published
2005
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38. Interaction of the insulin receptor with the receptor-like protein tyrosine phosphatases PTPalpha and PTPepsilon in living cells.

Author

Lacasa D, Boute N, and Issad T

Subjects
Cells, Cultured, Humans, Insulin pharmacology, Luminescent Measurements, Protein Conformation, Protein Tyrosine Phosphatases chemistry, Receptor, Insulin chemistry, Receptor-Like Protein Tyrosine Phosphatases, Class 4, Protein Tyrosine Phosphatases metabolism, Receptor, Insulin metabolism
Abstract

The interactions between the insulin receptor and the two highly homologous receptor-like protein tyrosine phosphatases (PTPase) PTPalpha and PTPepsilon were studied in living cells by using bioluminescence resonance energy transfer. In human embryonic kidney 293 cells expressing the insulin receptor fused to luciferase and substrate-trapping mutants of PTPalpha or PTPepsilon fused to the fluorescent protein Topaz, insulin induces an increase in resonance energy transfer that could be followed in real time in living cells. Insulin effect could be detected at very early time points and was maximal less than 2 min after insulin addition. Bioluminescence resonance energy-transfer saturation experiments indicate that insulin does not stimulate the recruitment of protein tyrosine phosphatase molecules to the insulin receptor but rather induces conformational changes within preassociated insulin receptor/protein tyrosine phosphatase complexes. Physical preassociation of the insulin receptor with these protein tyrosine phosphatases at the plasma membrane, in the absence of insulin, was also demonstrated by chemical cross-linking with a non-cell-permeable agent. These data provide the first evidence that PTPalpha and PTPepsilon associate with the insulin receptor in the basal state and suggest that these protein tyrosine phosphatases may constitute important negative regulators of the insulin receptor tyrosine kinase activity by acting rapidly at the plasma membrane level.

Published
2005
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39. Reduction of intracellular cholesterol accumulation in THP-1 macrophages by a combination of rosiglitazone and atorvastatin.

Author

Llaverias G, Lacasa D, Viñals M, Vázquez-Carrera M, Sánchez RM, Laguna JC, and Alegret M

Subjects
ATP Binding Cassette Transporter 1, ATP-Binding Cassette Transporters metabolism, Atorvastatin, Biological Transport, CD36 Antigens metabolism, Cells, Cultured, Gene Expression drug effects, Humans, Hypoglycemic Agents pharmacology, Lipoproteins, LDL metabolism, Macrophages metabolism, Receptors, Lipoprotein metabolism, Receptors, Scavenger, Rosiglitazone, Scavenger Receptors, Class B, Anticholesteremic Agents pharmacology, Cholesterol metabolism, Heptanoic Acids pharmacology, Macrophages drug effects, Pyrroles pharmacology, Receptors, Immunologic, Thiazolidinediones pharmacology
Abstract

Rosiglitazone and atorvastatin combination therapy has beneficial effects on both glycemic control and plasma lipid levels in type 2 diabetic patients. In the present study, we sought to determine whether this combination can also exert direct antiatherosclerotic effects in macrophages. Our results show that 2 microM rosiglitazone, alone or combined with 5 microM atorvastatin, significantly upregulated the expression of the ATP-binding cassette transporter ABCA1 and of the class B scavenger receptor CLA-1 (CD36 and LIMPII analog), both involved in cholesterol efflux from macrophages. On the other hand, the combination with atorvastatin attenuated the inductive response elicited by rosiglitazone alone on CD36 mRNA (34%, P < 0.05) and protein (16%, P < 0.05), while the uptake of oxidized low density lipoprotein (LDL) remained unaffected. When we examined the effects of the drugs on acetyl-LDL-induced cholesterol accumulation, we found that only the combination of atorvastatin with rosiglitazone caused a net depletion in the cholesteryl ester content of macrophages (35%, P < 0.05). Our data suggest that this reduction was not mediated by effects on proteins that regulate cholesterol flux, but it may be related to the inhibition of cholesteryl ester formation elicited by the statin.

Published
2004
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40. Dynamics of the interaction between the insulin receptor and protein tyrosine-phosphatase 1B in living cells.

Author

Boute N, Boubekeur S, Lacasa D, and Issad T

Subjects
Cells, Cultured, DNA, Complementary genetics, Humans, Kidney, Kinetics, Luminescent Measurements, Protein Tyrosine Phosphatase, Non-Receptor Type 1, Protein Tyrosine Phosphatases genetics, Receptor, Insulin genetics, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins metabolism, Transfection, src Homology Domains, Protein Tyrosine Phosphatases chemistry, Protein Tyrosine Phosphatases metabolism, Receptor, Insulin chemistry, Receptor, Insulin metabolism
Abstract

The dynamics of the interaction of the insulin receptor with a substrate-trapping mutant of protein-tyrosine phosphatase 1B (PTP1B) were monitored in living human embryonic kidney cells using bioluminescence resonance energy transfer (BRET). Insulin dose-dependently stimulates this interaction, which could be followed in real time for more than 30 minutes. The effect of insulin on the BRET signal could be detected at early time-points (30 seconds), suggesting that in intact cells the tyrosine-kinase activity of the insulin receptor is tightly controlled by PTP1B. Interestingly, the basal (insulin-independent) interaction of the insulin receptor with PTP1B was much weaker with a soluble form of the tyrosine-phosphatase than with the endoplasmic reticulum (ER)-targeted form. Inhibition of insulin-receptor processing using tunicamycin suggests that the basal interaction occurs during insulin-receptor biosynthesis in the ER. Therefore, localization of PTP1B in this compartment might be important for the regulation of insulin receptors during their biosynthesis.

Published
2003
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41. Rapid nongenomic E2 effects on p42/p44 MAPK, activator protein-1, and cAMP response element binding protein in rat white adipocytes.

Author

Dos Santos EG, Dieudonne MN, Pecquery R, Le Moal V, Giudicelli Y, and Lacasa D

Subjects
Animals, Blotting, Western, Cell Nucleus drug effects, Cell Nucleus metabolism, Cells, Cultured, Cyclic AMP Response Element-Binding Protein genetics, Electrophoresis, Enzyme Activation drug effects, Enzyme Activators pharmacology, Gene Expression Regulation drug effects, Gene Expression Regulation, Enzymologic drug effects, Mitogen-Activated Protein Kinase 1 biosynthesis, Mitogen-Activated Protein Kinase 1 genetics, Mitogen-Activated Protein Kinase 3, Mitogen-Activated Protein Kinases biosynthesis, Mitogen-Activated Protein Kinases genetics, RNA, Messenger biosynthesis, RNA, Messenger genetics, Rats, Reverse Transcriptase Polymerase Chain Reaction, Transcription Factor AP-1 biosynthesis, Transcription Factor AP-1 genetics, Transfection, Adipocytes metabolism, Cyclic AMP Response Element-Binding Protein biosynthesis, Estradiol pharmacology, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinases metabolism, Transcription Factor AP-1 metabolism
Abstract

In some tissues, rapid effects of estrogens have been described at the plasma membrane level including activation of the MAPK activity. In rat adipocytes, the present study demonstrates that physiological concentrations (0.1-10 nM) of E2 rapidly activate the p42/p44 MAPK. This effect was blocked by the pure estrogen antagonist, ICI 182 780, and appeared specific for E2 because 17alpha-E2, T, and progesterone failed to change the MAPK activity. Pertussis toxin; PP2, a selective inhibitor of Src family kinase; and wortmannin all reduced the magnitude of MAPK activation by E2 suggesting involvement of the Gi-protein/Src family kinase/PI3K pathway. Classical PKCs and MAPK kinase were also involved in MAPK activation by E2. Interestingly, this activation was observed in late but not early differentiated rat preadipocytes, and the immunoreactive ER(alpha) protein was detected only in adipocyte membrane, suggesting that the adipocyte membrane structure is required for the nongenomic effect of E2. Moreover, E2 induced a rapid nuclear translocation of MAPK together with a fast MAPK- dependent activation of cAMP response element binding protein leading to a transcriptional activation of cAMP response element binding protein-responsive genes and reported plasmids. However, the E2 increase in adipocyte activator protein-1 DNA binding does not seem to be fully explained by the E2 activation of the MAPK pathway. This study provides clear evidence for an additional nongenomic mechanism whereby estrogens may exert their control on adipose tissue metabolism.

Published
2002
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42. Insulin stimulates nitric oxide production in rat adipocytes.

Author

Ribière C, Jaubert AM, Sabourault D, Lacasa D, and Giudicelli Y

Subjects
Adipocytes chemistry, Adipocytes drug effects, Androstadienes pharmacology, Animals, Butadienes pharmacology, Cells, Cultured, Dose-Response Relationship, Drug, Enzyme Inhibitors pharmacology, Indoles pharmacology, Intracellular Membranes chemistry, Male, Maleimides pharmacology, Mitogen-Activated Protein Kinases antagonists & inhibitors, Mitogen-Activated Protein Kinases metabolism, Nitric Oxide Synthase analysis, Nitric Oxide Synthase Type III, Nitriles pharmacology, Phosphoinositide-3 Kinase Inhibitors, Phosphorylation, Protein Kinase C antagonists & inhibitors, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Rats, Rats, Sprague-Dawley, Wortmannin, Adipocytes metabolism, Insulin pharmacology, Nitric Oxide biosynthesis, Protein Serine-Threonine Kinases
Abstract

In adipocytes, insulin regulates the activity of different protein kinases (PI3K/Akt, MAPK, PKC) and protein phosphatases (PP-1, PP-2A). Since these enzymes are implicated in the regulation of NOS activity which is present in adipose tissue, we tested the effects of insulin on white adipocyte NOS activity. Exposure of adipocytes to insulin resulted simultaneously in NOS activity stimulation and Akt activation with maximal effect observed at 1 nM. Higher concentrations of insulin induced a progressive decline of NOS activity. In the presence of wortmannin, a PI3K inhibitor, 1 nM insulin failed to stimulate NOS activity. Insulin (1 nM)-stimulated NOS activity was also abolished by U0126, an inhibitor of p42/p44 MAPK activation, and by 1 microM okadaic acid (OA), which inhibits both PP-1 and PP-2A but not by 1 nM OA which inhibits only PP-2A. Moreover, inhibition of cPKC allowed a high (1 microM) insulin concentration to stimulate NOS activity. These results (i) demonstrate that insulin activates NO production in adipocytes through both PI3K/Akt and MAPK/PP-1 activation and (ii) suggest that PP-1 activation protects NOS against the inhibitory effect of cPKC activation., (©2002 Elsevier Science (USA).)

Published
2002
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43. Site-specific control of rat preadipocyte adipose conversion by ovarian status: Possible involvement of CCAAT/enhancer-binding protein transcription factors.

Author

Lacasa D, Garcia Dos Santos E, and Giudicelli Y

Subjects
Animals, CCAAT-Enhancer-Binding Proteins genetics, Cell Differentiation, Cell Division, Female, Lipoprotein Lipase metabolism, Ovariectomy, Proto-Oncogene Proteins c-myc genetics, RNA, Messenger analysis, Rats, Rats, Sprague-Dawley, Adipocytes cytology, Ovary physiology, Stem Cells cytology
Abstract

The preadipocyte-adipocyte conversion process from two intraabdominal (parametrial and perirenal fat depots) is differently affected by ovarian status in the rat. We have tested the hypothesis that these site-specific alterations of adipogenesis might be related to changes in the expression of the transcription factors c-mycand CCAAT/enhancer binding proteins (C/EBPalpha, -beta, and -zeta) that regulate proliferation and differentiation. The increased proliferation rates observed in parametrial and perirenal preadipocytes after ovariectomy were not linked to variations in c-myc mRNA levels. Expression of the early marker of adipogenesis, lipoprotein lipase (LPL), remained insensitive to the ovarian status in early differentiated parametrial and perirenal preadipocytes. By contrast, LPL expression increased in early differentiated sc preadipocytes from ovariectomized rats, an effect that was completely reversed by in vivo estradiol and progesterone treatment. Expression of C/EBPbeta protein was unaffected by ovarian status whatever the anatomic origin of the preadipocytes. By contrast, the levels of p42 and p30 isoforms of C/EBPalpha were specifically decreased in parametrial preadipocytes, an alteration that was completely corrected by in vivo administration of estradiol and progesterone. C/EBPzeta, a dominant inhibitor of C/EBPalpha and -beta, exhibited a strong site-specific expression since C/ EBPzeta content was fivefold higher in sc preadipocytes than in deep intraabdominal cells whatever the ovarian status. Furthermore, ovariectomy selectively decreased C/EBPzeta levels in sc cells. In conclusion, our study suggests that some of the site-specific effects of ovariectomy on adipogenesis could involve, at least in part, altered expressions of C/EBPalpha and -zeta, both of which are important transcriptional regulators of fat cell differentiation and metabolism.

Published
2001
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44. Progesterone stimulates adipocyte determination and differentiation 1/sterol regulatory element-binding protein 1c gene expression. potential mechanism for the lipogenic effect of progesterone in adipose tissue.

Author

Lacasa D, Le Liepvre X, Ferre P, and Dugail I

Subjects
Adipocytes cytology, Lipolysis, RNA, Messenger genetics, Sterol Regulatory Element Binding Protein 1, Adipocytes drug effects, CCAAT-Enhancer-Binding Proteins genetics, Cell Differentiation drug effects, DNA-Binding Proteins genetics, Gene Expression Regulation drug effects, Progesterone pharmacology, Transcription Factors
Abstract

Fatty acid synthase (FAS), a nutritionally regulated lipogenic enzyme, is transcriptionally controlled by ADD1/SREBP1c (adipocyte determination and differentiation 1/sterol regulatory element-binding protein 1c), through insulin-mediated stimulation of ADD1/SREBP1c expression. Progesterone exerts lipogenic effects on adipocytes, and FAS is highly induced in breast tumor cell lines upon progesterone treatment. We show here that progesterone up-regulates ADD1/SREBP1c expression in the MCF7 breast cancer cell line and the primary cultured preadipocyte from rat parametrial adipose tissue. In MCF7, progesterone induced ADD1/SREBP1c and Metallothionein II (a well known progesterone-regulated gene) mRNAs, with comparable potency. In preadipocytes, progesterone increased ADD1/SREBP1c mRNA dose-dependently, but not SREBP1a or SREBP2. Run-on experiments demonstrated that progesterone action on ADD1/SREBP1c was primarily at the transcriptional level. The membrane-bound and mature nuclear forms of ADD1/SREBP1 protein accumulated in preadipocytes cultured with progesterone, and FAS induction could be abolished by adenovirus-mediated overexpression of a dominant negative form of ADD1/SREBP1 in these cells. Finally, in the presence of insulin, progesterone was unable to up-regulate ADD1/SREBP1c mRNA in preadipocytes, whereas its effect was restored after 24 h of insulin deprivation. Together these results demonstrate that ADD1/SREBP1c is controlled by progesterone, which, like insulin, acts by increasing ADD1/SREBP1c gene transcription. This provides a potential mechanism for the lipogenic actions of progesterone on adipose tissue.

Published
2001
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45. Estradiol stimulation of c-fos and c-jun expressions and activator protein-1 deoxyribonucleic acid binding activity in rat white adipocyte.

Author

Garcia E, Lacasa D, and Giudicelli Y

Subjects
Animals, Cycloheximide pharmacology, Dactinomycin pharmacology, Estradiol analogs & derivatives, Female, Fulvestrant, Gene Expression drug effects, Male, Nucleic Acid Synthesis Inhibitors pharmacology, Ovariectomy, Progesterone pharmacology, Protein Synthesis Inhibitors pharmacology, RNA, Messenger biosynthesis, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Adipocytes metabolism, DNA metabolism, Estradiol pharmacology, Genes, fos, Genes, jun, Transcription Factor AP-1 metabolism
Abstract

In order to elucidate the molecular mechanisms whereby ovarian hormones, and particularly estrogens, modulate fat cell metabolism, we investigated the effects of estradiol administration on c-fos and c-jun expressions in fat cells from ovariectomized (OVX) rats. Estradiol treatment resulted in a rapid increase in c-fos and c-jun messenger RNA (mRNA) and protein levels (about 2-fold). These effects of estradiol on c-fos and c-jun mRNAs were blocked by actinomycin D but not by cycloheximide treatment, suggesting that estradiol modulates c-fos and c-jun transcription. Moreover, the estradiol-induction of both transcripts was partially suppressed by the estrogen-receptor antagonist ICI 182,780. In contrast, progesterone administration did not affect c-fos and c-jun mRNA levels indicating a hormonal specificity of estrogen action. However, an antagonism of estradiol-induction of both genes was observed after progesterone treatment. In addition, the estradiol-induced changes in c-fos and c-jun mRNA expressions could not be observed in castrated males suggesting a gender-specific effect of estradiol. Finally, in OVX rats, estradiol treatment stimulated the specific AP-1 DNA binding activity (about 5-fold) in adipocyte nuclear extracts as assessed by electrophoretic mobility shift assays. These results suggest that some of the estrogen effects in fat cells from female rats are mediated through induction of the AP-1 complex expression and consequently through modulation of the AP-1 dependent gene expression in adipocytes.

Published
2000
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46. Antiadipogenic properties of retinol in primary cultured differentiating human adipocyte precursor cells.

Author

Garcia E, Lacasa D, Agli B, Giudicelli Y, and Castelli D

Abstract

The aim of this study was to investigate the effect of retinol on the human adipose conversion process using primary cultured human adipocyte precursor cells. When these cells were seeded in a medium containing retinol (concentrations ranging from 3.5 nM to 3.5 muM), cell proliferation was slightly inhibited by high concentrations of retinol, as demonstrated by cell counting and [(3)H]-thymidine incorporation. Moreover, the differentiation capacities of these cells were markedly and dose-dependently inhibited by retinol, as shown by the reduced expression of the lipogenic enzyme glycerol-3-phosphate dehydrogenase and by microscopic morphological analysis. These results strongly suggest that retinol, by inhibiting the ability of human preadipocytes to convert into mature adipocytes, could be of potential interest in the prevention of human adipose tissue development in general and of cellulitis in particular.

Published
2000
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47. Modulation of white adipose tissue lipolysis by nitric oxide.

Author

Gaudiot N, Jaubert AM, Charbonnier E, Sabourault D, Lacasa D, Giudicelli Y, and Ribière C

Subjects
Adipose Tissue cytology, Cells, Cultured, Cyclic GMP physiology, Hydrazines chemistry, Lipolysis, Nitric Oxide chemistry, Nitric Oxide metabolism, Nitroso Compounds chemistry, Oxidation-Reduction, Penicillamine analogs & derivatives, Penicillamine chemistry, Adipose Tissue metabolism, Nitric Oxide physiology
Abstract

In isolated adipocytes, the nitrosothiols S-nitroso-N-acetyl-penicillamine (SNAP) and S-nitrosoglutathione stimulate basal lipolysis, whereas the nitric oxide (NO.) donor 1-propamine, 3-(2-hydroxy-2-nitroso-1-propylhydrazine) (PAPA-NONOate) or NO gas have no effect. The increase in basal lipolysis due to nitrosothiols was prevented by dithiothreitol but not by a guanylate cyclase inhibitor. In addition the cyclic GMP-inhibited low Km, cyclic AMP phosphodiesterase activity was inhibited by SNAP suggesting that SNAP acting as NO+ donor increases basal lipolysis through a S-nitrosylation mediated inhibition of phosphodiesterase. Contrasting with these findings, SNAP reduced both isoproterenol-stimulated lipolysis and cyclic AMP production, whereas it failed to modify forskolin-, dibutyryl cyclic AMP-, or isobutylmethylxanthine-stimulated lipolysis, suggesting that SNAP interferes with the beta-adrenergic signal transduction pathway upstream the adenylate cyclase. In contrast with SNAP, PAPA-NONOate or NO gas inhibited stimulated lipolysis whatever the stimulating agents used without altering cyclic AMP production. Moreover PAPA-NONOate slightly reduces (30%) the hormone-sensitive lipase (HSL) activity indicating that stimulated lipolysis inhibition by NO. is linked to both inhibition of the HSL activity and the cyclic AMP-dependent activation of HSL. These data suggest that NO. or related redox species like NO+/NO- are potential regulators of lipolysis through distinct mechanisms.

Published
1998
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48. Site-related specificities of the control by androgenic status of adipogenesis and mitogen-activated protein kinase cascade/c-fos signaling pathways in rat preadipocytes.

Author

Lacasa D, Garcia E, Henriot D, Agli B, and Giudicelli Y

Subjects
Adipocytes chemistry, Analysis of Variance, Animals, Blotting, Western, Calcium-Calmodulin-Dependent Protein Kinases analysis, Calcium-Calmodulin-Dependent Protein Kinases metabolism, Cell Differentiation drug effects, Cell Differentiation physiology, Cells, Cultured, Enzyme Activation, Epididymis chemistry, Epididymis cytology, Epididymis physiology, Glycerolphosphate Dehydrogenase analysis, Male, Mitogen-Activated Protein Kinase Kinases, Orchiectomy, Protein Kinase C analysis, Protein Kinase C physiology, Protein Kinases analysis, Protein Kinases metabolism, Protein Kinases physiology, Protein Serine-Threonine Kinases analysis, Protein Serine-Threonine Kinases metabolism, Protein Serine-Threonine Kinases physiology, Proto-Oncogene Proteins analysis, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins physiology, Proto-Oncogene Proteins c-fos analysis, Proto-Oncogene Proteins c-fos metabolism, Proto-Oncogene Proteins c-raf, Rats, Rats, Sprague-Dawley, Signal Transduction physiology, Stem Cells chemistry, Adipocytes cytology, Adipocytes physiology, Calcium-Calmodulin-Dependent Protein Kinases physiology, Proto-Oncogene Proteins c-fos physiology, Stem Cells cytology, Stem Cells physiology, Testosterone pharmacology
Abstract

In rats, castration induces a complete defective adipose conversion of preadipocytes from the epididymal fat depots (Lacasa, D., B. Agli, D. Noynarol, and Y. Giudicelli, 1995, Endocrine 3: 789-793). The aim of this study was to establish the eventual site-specificity of this effect as well as the mechanisms involved. Therefore, the influence of androgenic status on the Fos protein induction and the Raf/mitogen-activated protein (MAP) kinase kinase (MEK)MAP cascade, which are all required for adipose conversion of preadipocytes, was compared in proliferating and differentiated preadipocytes from femoral sc and deep intraabdominal (epididymal and perirenal) fat depots. In epididymal and perirenal proliferating preadipocytes, increased proliferation due to castration is associated with increased MAP kinase activity. However, higher immunoreactive levels of the upstream activators of MAP kinase, Raf-1 and MEK, were observed only in epididymal cells. Moreover, in vivo testosterone treatment corrected the effects of castration on Raf-1 but not on MEK and MAP kinase. MAP kinase activity was decreased during the course of adipogenesis. In differentiated cells, MAP kinase activity showed variations according to the anatomical origin of preadipocytes but not to the androgenic status. In contrast, MEK and Raf-1 immunoreactive levels were both sensitive to androgenic status but were differently affected depending on cell origin. Finally, the defective adipogenesis seen in epididymal preadipocytes from castrated rats was associated with reduced Fos protein induction in these cells, an alteration which was partly corrected by testosterone-treatment. Taken together, these results suggest that androgenic status affects adipogenesis from deep intraabdominal preadipocytes through alterations of some components of the MAP kinase cascade/Fos signaling pathways.

Published
1997
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49. Control of rat preadipocyte adipose conversion by ovarian status: regional specificity and possible involvement of the mitogen-activated protein kinase-dependent and c-fos signaling pathways.

Author

Lacasa D, Garcia E, Agli B, and Giudicelli Y

Subjects
Animals, Blotting, Western, Calcium-Calmodulin-Dependent Protein Kinases metabolism, Cell Differentiation, Cell Division, Enzyme Activation, Enzyme Induction, Female, Isoenzymes metabolism, MAP Kinase Kinase 1, Mitogen-Activated Protein Kinase 1, Mitogen-Activated Protein Kinase 3, Ovariectomy, Protein Kinase C metabolism, Protein Kinase C-delta, Protein Serine-Threonine Kinases metabolism, Protein-Tyrosine Kinases metabolism, Rats, Rats, Sprague-Dawley, Adipose Tissue cytology, Calcium-Calmodulin-Dependent Protein Kinases biosynthesis, Mitogen-Activated Protein Kinase Kinases, Mitogen-Activated Protein Kinases, Ovary physiology, Proto-Oncogene Proteins c-fos biosynthesis, Signal Transduction physiology
Abstract

As ovariectomy induces obesity in rats, we have investigated the influence of ovariectomy and hormone replacement on the proliferation and differentiation capacities of rat cultured preadipocytes removed from different fat depots (femoral sc, parametrial, and perirenal). Ovariectomy induced increased proliferation and differentiation as well as high mitogen-activated protein (MAP) kinase activity and c-fos protein induction in both confluent and differentiated preadipocytes from perirenal fat depots. In parametrial preadipocytes, ovariectomy also increased proliferation and c-fos protein induction, but failed to alter the capacities of these cells to differentiate. Treatment of ovariectomized rats with estradiol and progesterone reversed the promoting effect of ovariectomy on proliferation, differentiation, and c-fos induction in perirenal preadipocytes, but not the MAP kinase activation observed during the proliferative phase. This treatment also reversed the promoting effect of ovariectomy on proliferation and c-fos induction seen in confluent parametrial preadipocytes. In contrast, sc preadipocytes were totally insensitive to ovarian status in terms of proliferation and differentiation capacities, MAP kinase activity, and c-fos induction. This study demonstrates that adipogenesis is site-specifically controlled by the ovarian status in the rat. It also suggests that ovariectomy-induced obesity (mainly abdominal) could be related to changes in some of the signaling pathways controlling adipogenesis in intraabdominal preadipocytes.

Published
1997
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50. Evidence for a regional-specific control of rat preadipocyte proliferation and differentiation by the androgenic status.

Author

Lacasa D, Agli B, Moynard D, and Giudicelli Y

Abstract

In the rat, castration induces a decreased weight of fat depots. One possible explanation for these alterations could be that the capacities of preadipocytes to proliferate and differentiate are reduced by castration. Considering the regional specification of adipose tissue metabolism, these capacities and their eventual modulation by the androgenic status were presently compared in cultured preadipocytes from rat subcutaneous (SC) and epididymal fat depots.In epididymal preadipocytes, castration induced an increase in their proliferative capacity and conversely, a decrease in their adipogenesis.In vivo treatment by testosterone reversed the proliferative alteration but not the defective adipogenesis caused by castration.In vitro, no direct effect of testosterone on the proliferative capacities of epididymal preadipocytes could be observed suggesting that testosterone acts indirectly or needs the presence of other cofactors, such as insulin, dexamethasone and growth hormone. Surprisingly, testosterone partly counteracted the inhibitory effect of growth hormone on preadipocyte differentiation.In contrast to these observations, SC preadipocytes were completely insensitive to the androgenic status in terms of proliferation and differentiation.This study showing site-specific effects of castration on preadipocyte proliferation and differentiation suggests that part of the decreased fatness induced by castration in the rat is related to the modulatory effect of androgenic status on adipogenesis in some deep fat depots.

Published
1995
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