Far from being simple sites of storage for excess energy, adipocytes play a major role in regulating organismal substrate flux, and they manifest extraordinarily complex metabolic pathways. The increasing prevalence of obesity in the United States, along with its metabolic and cardiovascular sequelae, make it imperative to further expand our knowledge of adipocyte and adipose tissue physiology and pathophysiology. In the first cycle of this application, we have generated a number of novel and provocative observations regarding the importance of endogenous adipocyte apoE expression for the regulation of adipocyte lipid metabolism and gene expression. The current competing renewal application addresses three new hypotheses with three Specific Aims, each of which is based on observations made in the current grant cycle, and each of which depends on tools and experimental methods we have developed in the current grant cycle.
Specific Aim # 1 is based on the hypothesis that changes in endogenous apoE expression in response to treatment of adipocytes with inflammatory cytokines or PPARγ agonists are required for the effect of these regulators on adipocyte lipid metabolism. These experiments will use mature WT and EKO adipocytes that are isolated from freshly harvested adipose tissue, and cultured adipocytes from mice and rats in which apoE expression has been altered by viral transduction.
Specific Aim # 2 addresses the hypothesis that changes in caveolin gene expression that we have observed in EKO adipocytes are due to altered sterol flux in these adipocytes. In these experiments, we will identify sterol responsive elements in the adipocyte caveolin gene, and determine if these are the same elements responsible for mediating the marked suppression of caveolin gene in EKO adipocytes. The second hypothesis of Specific Aim # 2 evaluates if reduced caveolin expression (and caveolae number) in EKO adipocytes contribute to the changes in lipid metabolism we have observed in these cells. In these experiments, we will evaluate the effect of manipulating caveolin expression (using viral transduction) on lipid metabolism in WT and EKO adipocytes.
Specific Aim # 3 addresses the hypothesis that the α-helical lipid binding C-terminal domain of apoE is required for the regulatory effects of endogenous apoE on adipocyte lipid metabolism that we have observed. For these experiments, we will express WT or a Cterminal truncation mutant of apoE in EKO adipocytes, and evaluate changes in adipocyte lipid metabolism and triglyceride accumulation. In observations made in the first cycle of this grant application, we have observed that endogenous apoE expression influences adipocyte triglyceride synthesis, triglyceride hydrolysis, triglyceride content, adipocyte size, fatty acid transport, and the expression of a number of significant adipocyte genes (e.g. caveolin). The experiments proposed in this competing renewal application will further address mechanisms involved, and allow us to further develop an integrated model for the role of endogenous apoE in adipocyte differentiated function.

Public Health Relevance

Obesity and its associated metabolic and vascular sequelae are important health problems in the United States. The studies proposed in this grant application are aimed at increasing the understanding of the physiology and pathophysiology of the adipocyte by investigating the role of endogenous adipocyte apoE expression on differentiated adipocyte function. The proposed hypotheses and experiments are based on novel and provocative observations suggesting that endogenous adipocyte apoE plays a major role in regulating adipocyte lipid metabolism and gene expression.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
High Priority, Short Term Project Award (R56)
Project #
2R56DK071711-05
Application #
8074139
Study Section
Cellular Aspects of Diabetes and Obesity Study Section (CADO)
Program Officer
Haft, Carol R
Project Start
2005-07-01
Project End
2011-07-31
Budget Start
2010-08-01
Budget End
2011-07-31
Support Year
5
Fiscal Year
2010
Total Cost
$235,500
Indirect Cost
Name
University of Illinois at Chicago
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
098987217
City
Chicago
State
IL
Country
United States
Zip Code
60612
Huang, Zhi H; Reardon, Catherine A; Subbaiah, Papasani V et al. (2013) ApoE derived from adipose tissue does not suppress atherosclerosis or correct hyperlipidemia in apoE knockout mice. J Lipid Res 54:202-13
Yue, Lili; Bian, Jing-Tan; Grizelj, Ivana et al. (2012) Apolipoprotein E enhances endothelial-NO production by modulating caveolin 1 interaction with endothelial NO synthase. Hypertension 60:1040-6
Huang, Zhi H; Maeda, Nobuyo; Mazzone, Theodore (2011) Expression of the human apoE2 isoform in adipocytes: altered cellular processing and impaired adipocyte lipogenesis. J Lipid Res 52:1733-41
Yue, Lili; Mazzone, Theodore (2011) Endogenous adipocyte apolipoprotein E is colocalized with caveolin at the adipocyte plasma membrane. J Lipid Res 52:489-98
Huang, Zhi H; Espiritu, Doris J; Uy, Arlene et al. (2011) Adipose tissue depot-specific differences in adipocyte apolipoprotein E expression. Metabolism 60:1692-701
Espiritu, Doris Joy; Huang, Zhi Hua; Zhao, Yong et al. (2010) Hyperglycemia and advanced glycosylation end products suppress adipocyte apoE expression: implications for adipocyte triglyceride metabolism. Am J Physiol Endocrinol Metab 299:E615-23
Mazzone, Theodore (2010) Intensive glucose lowering and cardiovascular disease prevention in diabetes: reconciling the recent clinical trial data. Circulation 122:2201-11
Yue, Lili; Mazzone, Theodore (2009) Peroxisome proliferator-activated receptor {gamma} stimulation of adipocyte ApoE gene transcription mediated by the liver receptor X pathway. J Biol Chem 284:10453-61
Sam, Susan; Haffner, Steven; Davidson, Michael H et al. (2009) Hypertriglyceridemic waist phenotype predicts increased visceral fat in subjects with type 2 diabetes. Diabetes Care 32:1916-20
Huang, Zhi Hua; Minshall, Richard D; Mazzone, Theodore (2009) Mechanism for endogenously expressed ApoE modulation of adipocyte very low density lipoprotein metabolism: role in endocytic and lipase-mediated metabolic pathways. J Biol Chem 284:31512-22

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