Solveig Nilsson scite author profile

Human apolipoprotein CIII (apoCIII) is a surface component of chylomicrons, very low density lipoproteins, and high density lipoproteins. ApoCIII inhibits lipoprotein lipase as well as binding of lipoproteins to cell surface heparan sulfate proteoglycans and receptors. High levels of apoCIII are often correlated with elevated levels of blood lipids (hypertriglyceridemia). Here, we report the three-dimensional NMR structure and dynamics of human apo-CIII in complex with SDS micelles, mimicking its natural lipidbound state. Thanks to residual dipolar coupling data, the first detailed view is obtained of the structure and dynamics of an intact apolipoprotein in its lipid-bound state. ApoCIII wraps around the micelle surface as a necklace of six ϳ10-residue amphipathic helices, which are curved and connected via semiflexible hinges. Three positively charged (Lys) residues line the polar faces of helices 1 and 2. Interestingly, their three-dimensional conformation is similar to that of the low density lipoprotein receptor binding motifs of apoE/B and the receptor-associated protein. At the C-terminal side of apoCIII, an array of negatively charged residues lines the polar faces of helices 4 and 5 and the adjacent flexible loop. Sequence comparison shows that this asymmetric charge distribution along the solvent-exposed face of apoCIII as well as other structural features are conserved among mammals. This structure provides a template for exploration of molecular mechanisms by which human apoCIII inhibits lipoprotein lipase and receptor binding.Apolipoproteins consist of five major classes, apo-A 2 through -E, and several subclasses. They are designed for lipid transport in blood and are attached to lipid droplets (lipoproteins) through amphipathic helices that intercalate into the single layer of phospholipids and cholesterol covering the droplet (1-3). The apolipoproteins regulate blood lipid levels by interaction with specialized endocytotic receptors and by modulating enzyme activities and lipid exchange reactions (4). They are therefore in focus with regard to disturbances in blood lipid metabolism (dyslipidemias), which in turn are associated with metabolic disorders like obesity, insulin resistance, diabetes type 2, and cardiovascular disease.Apolipoprotein CIII (apoCIII) is the most abundant C-apolipoprotein in humans (2-4). It is found on very low density lipoproteins, chylomicrons, and high density lipoproteins (HDL). ApoCIII is predominantly expressed in liver and intestine from a gene cluster important for lipid regulation (ApoAI, -AIV, -AV, and -CIII) (4, 5). ApoCIII inhibits lipoprotein lipase (LPL) and receptor-mediated endocytosis of lipoprotein particles by competing for space at the surface of the lipoproteins and by interfering with their binding to endothelial proteoglycans and to specific lipoprotein receptors (2, 4, 6). Overexpression of apoCIII in transgenic mice leads to severely increased plasma triglyceride levels due to accumulation of very low density lipoprotein-like lipoprotein remnants w...

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Global Structure and Dynamics of Human Apolipoprotein CII in Complex with Micelles: Evidence for Increased Mobility of the Helix Involved in the Activation of Lipoprotein Lipase^,

Zdunek

Martinez

Schleucher

et al. 2003

Biochemistry

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Apolipoprotein CII (apoCII), a surface constituent of plasma lipoproteins, is the activator for lipoprotein lipase (LPL) and is therefore central for lipid transport in blood. The three-dimensional structure of (13)C-, (15)N-enriched human full-length apoCII in complex with sodium dodecyl sulfate (SDS) micelles is reported. In addition to the structure determination, (15)N-relaxation measurements have been performed at two magnetic fields to characterize the dynamics of the backbone of apoCII in the complex. The relaxation data also provided global structural constraints, viz. the orientation of helices in the complex. In addition, global constraints were derived from the fact that apoCII helices are attached to the surface of the SDS micelle and that the hydrophobic moments of each helix faces the interior of the micelle. These three categories of global constraints, together with the local classical NMR constraints, were sufficient to define the 3D structure of the apoCII-SDS micelle complex. To our knowledge, this presents the first example in which the global structure of a protein-SDS micelle complex has been determined. The C-terminal helix of apoCII is known to be responsible for the activation of LPL. This helix is distinguished from the other helices by a higher degree of internal motion on the nanosecond time scale as shown by the relaxation data. The overall structure and the internal dynamics, combined with previous mutation data, give important clues toward a possible mechanism for the activation of LPL by apoCII.

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Maternal Obesity Is Associated With the Formation of Small Dense LDL and Hypoadiponectinemia in the Third Trimester

Meyer

Stewart

Brown

et al. 2013

The Journal of Clinical Endocrinology & Metabolism

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Functional Analyses of Human Apolipoprotein CII by Site-directed Mutagenesis

Shen¹,

Lóokene²,

Nilsson³

et al. 2002

Journal of Biological Chemistry

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Apolipoprotein CII (apoCII) activates lipoprotein lipase (LPL). Seven residues, located on one face of a model ␣-helix spanning residues 59 -75, are fully conserved in apoCII from ten different animal species. We have mutated these residues one by one. 70 by glutamate caused almost complete loss of activity. All mutants bound to liposomes with similar affinity as wild-type apoCII, and they also bound with similar affinity to LPL in the absence of hydrolyzable lipids. However, the inactive mutants did not compete with wild-type apoCII in the activation assay. Therefore, we conclude that the productive apoCII⅐LPL interaction may be dependent on substrate molecules. In summary, our data demonstrate that residues 63, 66, 69, and 70 are of special importance for the function of apoCII, but no single amino acid residue is absolutely crucial.

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Solveig Nilsson

Anticoagulant and antithrombotic effects of heparin and low molecular weight heparin fragments in rabbits

Structure and Dynamics of Human Apolipoprotein CIII

Global Structure and Dynamics of Human Apolipoprotein CII in Complex with Micelles: Evidence for Increased Mobility of the Helix Involved in the Activation of Lipoprotein Lipase^,

Maternal Obesity Is Associated With the Formation of Small Dense LDL and Hypoadiponectinemia in the Third Trimester

Functional Analyses of Human Apolipoprotein CII by Site-directed Mutagenesis

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Solveig Nilsson

Anticoagulant and antithrombotic effects of heparin and low molecular weight heparin fragments in rabbits

Structure and Dynamics of Human Apolipoprotein CIII

Global Structure and Dynamics of Human Apolipoprotein CII in Complex with Micelles: Evidence for Increased Mobility of the Helix Involved in the Activation of Lipoprotein Lipase,

Maternal Obesity Is Associated With the Formation of Small Dense LDL and Hypoadiponectinemia in the Third Trimester

Functional Analyses of Human Apolipoprotein CII by Site-directed Mutagenesis

Contact Info

Product

Resources

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Global Structure and Dynamics of Human Apolipoprotein CII in Complex with Micelles: Evidence for Increased Mobility of the Helix Involved in the Activation of Lipoprotein Lipase^,