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Plasma phospholipid transfer protein (PLTP) plays an important role in lipoprotein metabolism. PLTP is an 80-kDa glycoprotein that is expressed/secreted by a wide variety of tissues including lung, liver, adipose tissue, brain, and muscle. PLTP mediates a net transfer of phospholipids between vesicles and plasma HDLs. It also generates from small HDL particles large fused HDL particles with a concomitant...
Members of the low density lipoprotein receptor gene family have recently received particular attention because of their involvement not only in lipoprotein transport, but also in signal transduction pathways. The main characteristic feature of this protein group is their cysteine-rich ligand binding domain, which is able to bind many unrelated proteins, such as apolipoproteins, proteases, and protease/inhibitor...
Sphingolipids are a highly diverse category of compounds that serve not only as components of biologic structures but also as regulators of numerous cell functions. Because so many of the sphingolipids in a biological system are bioactive and are often closely related structurally and metabolically (for example, complex sphingolipids↔ceramide↔sphingosine↔sphingosine 1-phosphate), to understand the...
In recent years researchers have recognized the potential value of comprehensive lipid profiling (lipidomics), which was invented and promoted by lipidologists who recognized the many valuable applications that grew out of the fields of DNA profiling (genomics) and protein profiling (proteonomics). Through lipid class-selective intrasource ionization and subsequent analysis of two-dimensional cross-peak...
Lipases and esterases constitute a large category of enzymes. They are ubiquitous in nature, found in bacteria, fungi, and animals. The family members address a wide variety of structurally diverse substrates. Appropriately, a large number of assays have been developed to analyze their activity in vitro. Here, we present an overview of these enzymes, along with protocols for common assays performed...
We provide an overview of lipid-dependent polytopic membrane protein topogenesis, with particular emphasis on Escherichia coli strains genetically altered in their lipid composition and strategies for experimentally determining the transmembrane organization of proteins. A variety of reagents and experimental strategies are described including the use of lipid mutants and thiol-specific chemical reagents...
New methods have been developed for studying lipid metabolism and transport in primary cultures of neurons. Sympathetic neurons from rats and mice, as well as retinal ganglion neurons from rats, can be cultured in three-compartmented culture dishes in which the cell bodies reside in a compartment separate from that housing the distal axons. In addition, the three compartments contain completely independent...
Most phospholipid metabolic pathways in the budding yeast Saccharomyces cerevisiae are analogous to their mammalian counterparts. The biological tractability of yeast provides for an opportunity to rapidly determine functions of specific lipids or lipid metabolic pathways using both classical and chemical-genetic techniques. The recent generation of the yeast genome deletion collection revealed that...
Sphingolipids (SLs) are concentrated at the plasma membrane where they play important roles in cell–cell communication, host–pathogen interactions, and cell signaling events. Our laboratory has used fluorescent SL analogs and SL-binding toxins to elucidate mechanisms by which SLs are internalized by endocytosis and subsequently sorted and transported to various intracellular compartments. These studies...
The mouse has become the de facto model for the majority of atherosclerosis studies. Studies involving the quantification of lesions in mouse models of the disease represent the basis of our evolving concepts on the biochemical and cellular mechanisms underlying the atherogenic process. Many issues of experimental design, including specific model, strain, gender, atherogenic stimulus, duration of...
The removal of phospholipids and cholesterol from tissues is the major mechanism mediating the initial assembly of high density lipoproteins (HDL), as well as being the main reason HDL are thought to protect against atherosclerosis. Investigations of the mechanisms of HDL assembly and testing of novel HDL-raising agents typically involve assays to determine phospholipid and/or cholesterol removal...
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