Esters cholesteryl

Peanut oil, glycerol phos-phatides, cholesteryl esters etc. 

Note Flavonoids react with the reagent even at room temperature [1] mycotoxins, steroids, purines, pyrimidines, cardiac glycosides and lipids only react on heating [2, 4-6]. Zirconyl sulfate can be used to replace the zirconyl chloride in the reagent this is reported to result in an increase in the sensitivity to certain groups of substances (e.g. cholesteryl esters, triglycerides) [4]. 

HJ. Kisner, C.W. Brown, GJ. Kavamos, "Simultaneous Determination of Triglycerides, Phospholipids, and Cholesteryl Esters by Infrared Spectrometry", Anal. Chem. 1982 (54) 1479-1485. 

Protein that transfers lipids among lipoproteins, especially cholesteryl ester from HDL to VLDL in exchange for triglycerides. 

Enzyme that converts free cholesterol to cholesteryl ester on HDL. 

Plasma lipid transfer proteins, which include the cholesteryl-ester-transfer-protein (CETP previously known as lipid transfer protein I, LTP-I) and the phospholipid-transfer-protein (PLTP previously known as lipid transfer protein II, LTP-II) mediate the transfer of lipids (cholesteryl esters, triglycerides and phospholipids) between lipoproteins present in human plasma. These proteins significantly affect plasma lipoprotein concentration and composition. 

CETP mediates the exchange of cholesteryl esters and triglycerides between HDL and the proatherogenic,... 

Qiu X, Mistry A, Ammirati MJ et al (2007) Crystal structure of cholesteryl ester transfer protein reveals a long tunnel and four bound lipid molecules. Nat Struct Mol Biol 14 106-113... 

The sample LCs used in their experiments were cholesteryl esters with low molecular weight cholesteryl acetate... 

Because they are uncharged, acylglycerols (glycerides), cholesterol, and cholesteryl esters are termed neutral lipids. 

Cholesterol (Figure 14-17) is widely distributed in all cells of the body but particularly in nervous tissue. It is a major constituent of the plasma membrane and of plasma lipoproteins. It is often found as cholesteryl ester, where the hydroxyl group on position 3 is esteri-fied with a long-chain fatty acid. It occurs in animals but not in plants. 

Fat absorbed from the diet and lipids synthesized by the liver and adipose tissue must be transported between the various tissues and organs for utilization and storage. Since lipids are insoluble in water, the problem of how to transport them in the aqueous blood plasma is solved by associating nonpolar lipids (triacylglycerol and cholesteryl esters) with amphipathic hpids (phospholipids and cholesterol) and proteins to make water-miscible hpoproteins. 

Plasma lipids consist of triacylglycerols (16%), phospholipids (30%), cholesterol (14%), and cholesteryl esters (36%) and a much smaller fraction of unesteri-fied long-chain fatty acids (free fatty acids) (4%). This latter fraction, the free fatty acids (FFA), is metaboh-cally the most active of the plasma hpids. 

The nonpolar lipid core consists of mainly triacylglycerol and cholesteryl ester and is surrounded by a single surface layer of amphipathic phospholipid and cholesterol molecules (Figure 25-1). These are oriented so that their polar groups face outward to the aqueous medium, as in the cell membrane (Chapter 14). The protein moiety of a lipoprotein is known as an apo-lipoprotein or apoprotein, constituting nearly 70% of some HDL and as litde as 1% of chylomicrons. Some apolipoproteins are integral and cannot be removed, whereas others are free to transfer to other hpoproteins. 

Apohpoproteins carry out several roles (1) they can form part of the stmcture of the hpoprotein, eg, apo B (2) they are enzyme cofactors, eg, C-11 for lipoprotein hpase, A-1 for lecithinicholesterol acyltransferase, or enzyme inhibitors, eg, apo A-11 and apo C-111 for lipoprotein hpase, apo C-1 for cholesteryl ester transfer protein and (3) they act as hgands for interaction with lipopro-... 

Figure 2S-1. Generalized structure of a plasma lipoprotein. The similarities with the structure of the plasma membrane are to be noted. Small amounts of cholesteryl ester and triacylglycerol are to be found in the surface layer and a little free cholesterol in the core.

Reaction with lipoprotein lipase results in the loss of approximately 90% of the triacylglycerol of chylomicrons and in the loss of apo C (which remrns to HDL) but not apo E, which is retained. The resulting chy-lotnicron remnant is about half the diameter of the parent chylomicron and is relatively enriched in cholesterol and cholesteryl esters because of the loss of triacylglycerol (Figure 25-3). Similar changes occur to VLDL, with the formation of VLDL remnants or IDL (intermediate-density lipoprotein) (Figure 25-4). 

Chylomicron remnants are taken up by the liver by receptor-mediated endocytosis, and the cholesteryl esters and triacylglycerols are hydrolyzed and metabolized. Uptake is mediated by a receptor specific for apo E (Figure 25-3), and both the LDL (apo B-lOO, E) receptor and the LRP (LDL receptor-related protein)... 

Figure 25-3. Metabolic fate of chylomicrons. (A, apolipoprotein A B-48, apolipoprotein B-48 , apolipoprotein C E, apolipoprotein E HDL, high-density lipoprotein TG, triacylgiycerol C, cholesterol and cholesteryl ester P, phospholipid HL, hepatic lipase LRP, LDL receptor-reiated protein.) Only the predominant lipids are shown.

HDL is synthesized and secreted from both liver and intestine (Figure 25—5). However, apo C and apo E are synthesized in the liver and transferred from fiver HDL to intestinal HDL when the latter enters the plasma. A major function of HDL is to act as a repository for the apo C and apo E required in the metabohsm of chylomicrons and VLDL. Nascent HDL consists of discoid phosphohpid bilayers containing apo A and free cholesterol. These hpoproteins are similar to the particles found in the plasma of patients with a deficiency of the plasma enzyme lecithimcholesterol acyltransferase (LCAT) and in the plasma of patients with obstructive jaundice. LCAT—and the LCAT activator apo A-I— bind to the disk, and the surface phosphohpid and free cholesterol are converted into cholesteryl esters and... 

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