Meifang Zhu scite author profile

The principal lipids in animal cell lipid droplets are cholesterol, cholesterol ester, and triglyceride, but the protein composition of this compartment is largely unknown. Here we report on the proteomic analysis of lipid droplets. Using a combination of mass spectrometry and immunoblotting, we identify nearly 40 specifically associated proteins in droplets isolated from Chinese hamster ovary K2 cells grown in normal medium. The proteins fall in to five groups: structural molecules of the droplet-like adipose differentiation-related protein; multiple enzymes involved in the synthesis, storage, utilization, and degradation of cholesterol esters and triglycerides; multiple, different Rab GTPases known to be involved in regulating membrane traffic; signaling molecules such as p50RhoGAP; and a group of proteins that do not fit any classification but include proteins often found in caveolae/rafts such as caveolin-1 and 2 and flotillin-1. The proteome of droplets isolated from cells grown in the presence of oleate is largely the same except for an increase in the amount of adipose differentiation-related protein, caveolin-1, and a protein thought to be involved in phospholipid recycling called CGI-58. Based on the protein profile, the lipid droplet appears to be a complex, metabolically active organelle that is directly involved in membrane traffic and possibly phospholipid recycling. We propose the name adiposome for this organelle.Lipid droplets are generally regarded as simple storage depots for neutral lipids in animal and plant cells. Their morphologic appearance gives the impression they are inert cellular inclusions that derive metabolic sustenance solely from their association with smooth endoplasmic reticulum, mitochondria, or peroxisomes (1). This is especially true in professional fat storing cells of plant seeds and adipose tissue where they occupy much of the cytoplasmic space.Plant and animal lipid droplets are coated with proteins that may regulate their size. Plant oleosins, a large family of structurally related proteins, form a capsule around seed lipid bodies (2). By contrast, a family of four proteins (ADRP, 1 perilipin, S3-12, and TIP47) that share a 100-amino-acid-long region of homology at the N terminus called the PAT domain are associated with the periphery of animal lipid droplets (3). ADRP, perilipin, and S3-12 are expressed highly in adipocytes. Unlike perilipin and S3-12, ADRP is expressed ubiquitously. Both the oleosins and the PAT domain proteins may function as barriers that control the lipolysis of core lipids (4). Apparently oleosins and PAT domain proteins are not strictly required for the generation and stability of a lipid droplet because these proteins are not found in yeast (Saccharomyces cerevisiae) lipid droplets (5). Instead, the predominant proteins in the lipid droplet fraction of these cells are enzymes involved in sterol and triglyceride metabolism. The localization of these enzymes to yeast lipid droplets suggests that the droplet is a metabolic organelle with a central ...

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Dynamic Activity of Lipid Droplets: Protein Phosphorylation and GTP-Mediated Protein Translocation

Bartz

et al. 2007

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Lipid droplet is a cellular organelle with a neutral lipid core surrounded by a phospholipid monolayer and coated with structural as well as functional proteins. The determination of these proteins, especially their functional regulations and dynamic movement on and off droplets, holds a key to resolving the biological functions of the cellular organelle. To address this, we carried out a comprehensive proteomic study that includes a complete proteomic, a phosphoprotein proteomic, and a comparative proteomic analysis using purified lipid droplets and mass spectrometry techniques. The complete proteome identified 125 proteins of which 70 proteins had not been identified on droplets of mammalian cells previously. In phosphoprotein proteomic analysis, 7 functional lipid droplet proteins were determined to be phosphorylated, including adipose differentiation related protein (ADRP/ADFP), two Rab proteins, and four lipid metabolism enzymes, including adipose triglyceride lipase (ATGL). To understand the dynamics of lipid droplets, GTP-dependent protein recruitment was analyzed by comparative proteomics. Arf1 and some of its coatomers, three other Arfs, several other small G-proteins including 3 Rabs, and several lipid synthetic enzymes were recruited from cytosol to purified droplets. Together, the present study suggests that lipid droplet is an active and dynamic cellular organelle that governs lipid homeostasis and intracellular trafficking through protein phosphorylation as well as GTP-regulated protein translocation.

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Release of Mechanical Tension Triggers Apoptosis of Human Fibroblasts in a Model of Regressing Granulation Tissue

Grinnell

Zhu

Carlson

et al. 1999

Experimental Cell Research

264

185

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Fibronectin Degradation in Chronic Wounds Depends on the Relative Levels of Elastase, α1-Proteinase Inhibitor, and α2-Macroglobulin

Grinnell¹,

Zhu²

1996

Journal of Investigative Dermatology

203

173

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The goal of our studies was to learn about the mechanism of fibronectin degradation in chronic ulcers. We found that the appearance of fibronectin fragments in chronic ulcer wound fluid correlated with elevated levels of elastase and cleavage of the proteinase inhibitors alpha2-macroglobulin (alpha2-M) and alpha 1-proteinase inhibitor (alpha1-P1). Some wound fluid samples retained the capacity to degrade fibronectin in vitro. Degradation of fibronectin by these samples was blocked by specific inhibitors of neutrophil elastase but not by inhibitors of metalloproteinases. Addition of human neutrophil elastase to mastectomy fluid, an acute wound fluid, resulted in formation of alpha1-PI and alpha2-M complexes and cleavage products resembling those observed in chronic wound fluid. Moreover, degradation of fibronectin and processing of matrix metalloproteinase MMP-9 occurred under these conditions. Taken together, our findings suggest that elevated levels of neutrophil elastase are responsible for fibronectin degradation in the chronic wound environment.

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Meifang Zhu

Chinese Hamster Ovary K2 Cell Lipid Droplets Appear to Be Metabolic Organelles Involved in Membrane Traffic

Dynamic Activity of Lipid Droplets: Protein Phosphorylation and GTP-Mediated Protein Translocation

Release of Mechanical Tension Triggers Apoptosis of Human Fibroblasts in a Model of Regressing Granulation Tissue

Fibronectin Degradation in Chronic Wounds Depends on the Relative Levels of Elastase, α1-Proteinase Inhibitor, and α2-Macroglobulin

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