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high-density lipoprotein

 
Dictionary: high-density lipoprotein
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n. (Abbr. HDL)
A complex of lipids and proteins in approximately equal amounts that functions as a transporter of cholesterol in the blood. High levels are associated with a decreased risk of atherosclerosis and coronary heart disease.


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Computer Desktop Encyclopedia: HDL
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(Hardware Description Language) A language used to describe the functions of an electronic circuit for documentation, simulation or logic synthesis (or all three). Although many proprietary HDLs have been developed, Verilog and VHDL are the major standards. The first book to provide side-by-side examples of subsets of both languages that could be simulated and synthesized was "HDL Chip Design" by Douglas J. Smith, published by Doone Publications, ISBN 0-9651934-3-8. See Verilog and VHDL.

HDL Languages
VHDL and Verilog are the most popular HDLs. These examples show a circuit described in RTL in both languages and the resulting schematic of the gate level netlist created after synthesis (below). (Language and schematic examples from "HDL Chip Design" courtesy of Douglas J. Smith.)

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Food and Nutrition: high-density lipoproteins
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One of the classes of plasma lipids.

Dental Dictionary: high-density lipoproteins
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n.pl
HDLs

Lipoproteins containing approximately 50% protein that transport cholesterol to the liver for disposal. High HDL levels are associated with low body cholesterol and decreased risk of heart disease.

Sports Science and Medicine: high-density lipoprotein
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HDL

A lipoprotein that carries cholesterol in the blood and lymph. It transports the cholesterol from tissues (including the arterial walls) to the liver to be broken down and excreted. Thus, HDL seems to accelerate the clearance of cholesterol from the blood, reducing the risk of cholesterol deposition in arterial walls which leads to atherosclerosis. Regular aerobic exercise increases the proportion of HDL in the blood. Compare low-density lipoprotein.

Veterinary Dictionary: HDL
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High-density lipoprotein.

Wikipedia: High-density lipoprotein
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High-density lipoprotein (HDL) is one of the five major groups of lipoproteins (chylomicrons, VLDL, IDL, LDL, HDL) that enable lipids like cholesterol and triglycerides to be transported within the water-based bloodstream. In healthy individuals, about thirty percent of blood cholesterol is carried by HDL.[1]

It is hypothesized that HDL can remove cholesterol from atheroma within arteries and transport it back to the liver for excretion or re-utilization, which is the main reason why HDL-bound cholesterol is sometimes called "good cholesterol", or HDL-C. A high level of HDL-C seems to protect against cardiovascular diseases, and low HDL cholesterol levels (less than 40 mg/dL) increase the risk for heart disease.[1] Cholesterol contained in HDL particles is considered beneficial for the cardiovascular health, in contrast to "bad" LDL cholesterol.

Contents

Structure and function

HDL is the smallest of the lipoprotein particles. They are the densest because they contain the highest proportion of protein. Their most abundant apolipoproteins are apo A-I and apo A-II.[2] The liver synthesizes these lipoproteins as complexes of apolipoproteins and phospholipid, which resemble cholesterol-free flattened spherical lipoprotein particles. They are capable of picking up cholesterol, carried internally, from cells by interaction with the ATP-binding cassette transporter A1 (ABCA1). A plasma enzyme called lecithin-cholesterol acyltransferase (LCAT) converts the free cholesterol into cholesteryl ester (a more hydrophobic form of cholesterol), which is then sequestered into the core of the lipoprotein particle, eventually making the newly synthesized HDL spherical. They increase in size as they circulate through the bloodstream and incorporate more cholesterol and phospholipid molecules from cells and other lipoproteins, for example by the interaction with the ABCG1 transporter and the phospholipid transport protein (PLTP).

HDL transports cholesterol mostly to the liver or steroidogenic organs such as adrenals, ovary, and testes by direct and indirect pathways. HDL is removed by HDL receptors such as scavenger receptor BI (SR-BI), which mediate the selective uptake of cholesterol from HDL. In humans, probably the most relevant pathway is the indirect one, which is mediated by cholesteryl ester transfer protein (CETP). This protein exchanges triglycerides of VLDL against cholesteryl esters of HDL. As the result, VLDLs are processed to LDL, which are removed from the circulation by the LDL receptor pathway. The triglycerides are not stable in HDL, but degraded by hepatic lipase so that finally small HDL particles are left, which restart the uptake of cholesterol from cells.

The cholesterol delivered to the liver is excreted into the bile and, hence, intestine either directly or indirectly after conversion into bile acids. Delivery of HDL cholesterol to adrenals, ovaries, and testes is important for the synthesis of steroid hormones.

Hdl1.svg

Several steps in the metabolism of HDL can contribute to the transport of cholesterol from lipid-laden macrophages of atherosclerotic arteries, termed foam cells, to the liver for secretion into the bile. This pathway has been termed reverse cholesterol transport and is considered as the classical protective function of HDL toward atherosclerosis.

However, HDL carries many lipid and protein species, many of which have very low concentrations but are biologically very active. For example, HDL and their protein and lipid constituents help to inhibit oxidation, inflammation, activation of the endothelium, coagulation, and platelet aggregation. All these properties may contribute to the ability of HDL to protect from atherosclerosis, and it is not yet known what is most important.

In the stress response, serum amyloid A, which is one of the acute-phase proteins and an apolipoprotein, is under the stimulation of cytokines (IL-1, IL-6), and cortisol produced in the adrenal cortex and carried to the damaged tissue incorporated into HDL particles. At the inflammation site, it attracts and activates leukocytes. In chronic inflammations, its deposition in the tissues manifests itself as amyloidosis.

It has been postulated that the concentration of large HDL particles more accurately reflects protective action, as opposed to the concentration of total HDL particles.[3] This ratio of large HDL to total HDL particles varies widely and is measured only by more sophisticated lipoprotein assays using either electrophoresis (the original method developed in the 1970s) or newer NMR spectroscopy methods (See also: NMR and spectroscopy), developed in the 1990s.

Epidemiology

Men tend to have noticeably lower HDL levels, with smaller size and lower cholesterol content, than women. Men also have an increased incidence of atherosclerotic heart disease.

Epidemiological studies have shown that high concentrations of HDL (over 60 mg/dL) have protective value against cardiovascular diseases such as ischemic stroke and myocardial infarction. Low concentrations of HDL (below 40 mg/dL for men, below 50 mg/dL for women) increase the risk for atherosclerotic diseases.

Data from the landmark Framingham Heart Study showed that, for a given level of LDL, the risk of heart disease increases 10-fold as the HDL varies from high to low. On the converse, however, for a fixed level of HDL, the risk increases 3-fold as LDL varies from low to high.

Even people with very low LDL levels are exposed to some increased risk if their HDL levels are not high enough.[4]

Recommended range

The American Heart Association, NIH and NCEP provides a set of guidelines for fasting HDL levels and risk for heart disease.[5][6][7]

Level mg/dL Level mmol/L Interpretation
<40 for men, <50 for women <1.03 Low HDL cholesterol, heightened risk for heart disease
40–59 1.03–1.55 Medium HDL level
>60 >1.55 High HDL level, optimal condition considered protective against heart disease

Measuring HDL

Reference ranges for blood tests, comparing HDL cholesterol (in orange at right) to other blood constituents.

Many laboratories used a two-step method: Chemical precipitation of lipoproteins containing apoprotein B, then calculating HDL as cholesterol remaining in the supernate,[8] but there are also direct methods.[9] Labs use the routine dextran sulfate-Mg2+ precipitation method with ultracentrifugation/dextran sulfate-Mg2+ precipitation as reference method.[10] HPLC can be used.[11]

Subfractions (HDL-2C, HDL-3C) can be measured [12] and have clinical significance.

Memory

A link has been shown between level of HDL and onset of dementia. Those with high HDL were less likely to have dementia.[13] Low HDL-C in late-middle age has also been associated with memory loss.[14]

Raising HDL

Diet and lifestyle

Certain changes in lifestyle can have a positive impact on raising HDL levels:[15]

  • Aerobic exercise[16]
  • Weight loss
  • Smoking cessation
  • Removing trans fatty acids from the diet
  • Removing meat from the diet [17]
  • One drink of alcohol a day or less yields higher HDL-C levels, more so in women than men. HDL transports cholesterol to the liver and cholesterol is known to have a protective effect on the cell membrane. It is likely that this reflects the liver's need for more cholesterol to protect itself from the alcohol.[18]
  • Adding soluble fiber to diet
  • Using supplements such as omega 3 fish oil[19] or flax oil[citation needed]
  • Increasing intake of cis-unsaturated fats[20] and cholesterol, decreasing intake of trans-fats.
  • Avoiding supplements that contain omega 6 fish oil (omega 6 reduces cholesterol but does not discriminate between good and bad cholesterol) as well as limiting foods high in omega 6 (tilapia, most vegetable oils, nuts)[citation needed]

A very-low-carbohydrate diet involving ketogenesis may have similar response to taking niacin as described above (lowered LDL and increased HDL) through beta-hydroxybutyrate coupling the Niacin receptor 1.[21]

Drugs

Pharmacological therapy to increase the level of HDL cholesterol includes use of fibrates and niacin. Fibrates, however, have shown that they have no effect on overall deaths from all causes, despite their effects on lipids.[22]

Niacin (B3), increases HDL by selectively inhibiting hepatic Diacylglycerol acyltransferase 2, reducing triglyceride synthesis and VLDL secretion through a receptor HM74[23] otherwise known as Niacin receptor 2 and HM74A / GPR109A,[21] Niacin receptor 1.

Pharmacologic (1- to 3-gram) doses increase HDL levels by 10–30%,[24] making it the most powerful agent to increase HDL-cholesterol.[25][26] A randomized clinical trial demonstrated that treatment with niacin can significantly reduce atherosclerosis progression and cardiovascular events.[27] However, niacin products sold as "no-flush", i.e. not having side-effects such as "niacin flush", do not contain free nicotinic acid and are therefore ineffective at raising HDL, while products sold as "sustained-release" may contain free nicotinic acid, but "some brands are hepatotoxic"; therefore the recommended form of niacin for raising HDL is the cheapest, immediate-release preparation.[28] Both fibrates and niacin increase artery toxic homocysteine, an effect that can be counteracted by also consuming a multivitamin with relatively high amounts of the B-vitamins.[citation needed]

In contrast, while the use of statins is effective against high levels of LDL cholesterol, it has little or no effect in raising HDL cholesterol.[25]

Torcetrapib, a drug developed by Pfizer to raise HDL by inhibition of cholesteryl ester transfer protein (CETP), was terminated after a greater percentage of patients treated with torcetrapib-Lipitor combination died compared with patients treated with Lipitor alone. Merck is currently researching a similar molecule called anacetrapib.[citation needed]

See also

Footnotes

  1. ^ a b "LDL and HDL Cholesterol: What's Bad and What's Good?". American Heart Association. July 2, 2009. http://www.americanheart.org/presenter.jhtml?identifier=180. Retrieved October 8, 2009. 
  2. ^ Després, Jean-Pierre. "The Atherogenic Triad of New Metabolic Risk Factors: Importance of Waist and Fasting Triglycerides as Screening Tools". Visceral Adipose Tissue and Cardiometabolic Risk: Does It Really Matter? Part 2. http://www.lipidsonline.org/slides/slide01.cfm?q=apolipoprotein&dpg=59. Retrieved October 8, 2009. [self-published source?]
  3. ^ Kwiterovich PO. The Metabolic Pathways of High-Density Lipoprotein, Low-Density Lipoprotein, and Triglycerides: A Current Review. Am J Cardiol 2000;86(suppl):5L.
  4. ^ Barter, Philip; Gotto, Antonio M.; LaRosa, John C.; Maroni, Jaman; Szarek, Michael; Grundy, Scott M.; Kastelein, John J. P.; Bittner, Vera et al. (2007). "HDL Cholesterol, Very Low Levels of LDL Cholesterol, and Cardiovascular Events". New England Journal of Medicine 357 (13): 1301. doi:10.1056/NEJMoa064278. PMID 17898099. 
  5. ^ "[www.americanheart.org/presenter.jhtml?identifier=4500 Cholesterol Levels]". American Heart Association. www.americanheart.org/presenter.jhtml?identifier=4500. Retrieved 2009-11-14. 
  6. ^ "[www.americanheart.org/downloadable/heart/119618151049911%20CholLevels%209_07.pdf What Do My Cholesterol Levels Mean?]" (PDF). American Heart Association. September 2007. www.americanheart.org/downloadable/heart/119618151049911%20CholLevels%209_07.pdf. Retrieved 2009-11-14. 
  7. ^ "[www.nhlbi.nih.gov/guidelines/cholesterol/atp3xsum.pdf Third Report of the National Cholesterol Education Program (NCEP) Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III) Executive Summary]". National Heart, Lung, and Blood Institute (NHLBI). National Institutes of Health. May 2001. www.nhlbi.nih.gov/guidelines/cholesterol/atp3xsum.pdf. 
  8. ^ Lin, Maun-Jan; Hoke, Carolyn; Ettinger, Bruce (1998). "Evaluation of Homogeneous High-Density Lipoprotein Cholesterol Assay on a BM/Hitachi 747-200 Analyzer". Clinical Chemistry 44 (5): 1050. PMID 9590383. http://www.clinchem.org/cgi/content/short/44/5/1050. 
  9. ^ "Lipid Measurement Fact Sheet". University of Michigan Health System. http://www.med.umich.edu/mdrtc/cores/ChemCore/lipids.htm. Retrieved October 8, 2009. 
  10. ^ Bairaktari, E; Elisaf, M; Katsaraki, A; Tsimihodimos, V; Tselepis, AD; Siamopoulos, KC; Tsolas, O (1999). "Homogeneous HDL-cholesterol assay versus ultracentrifugation/dextran sulfate-Mg2+ precipitation and dextran sulfate-Mg2+ precipitation in healthy population and in hemodialysis patients". Clinical Biochemistry 32 (5): 339. doi:10.1016/S0009-9120(99)00031-4. PMID 10480448. 
  11. ^ Okazaki, Mitsuyo; Sasamoto, Keiko; Muramatsu, Toshio; Hosaki, Seijin (1997). "Evaluation of precipitation and direct methods for HDL-cholesterol assay by HPLC". Clinical Chemistry 43 (10): 1885. PMID 9342008. http://www.clinchem.org/cgi/content/abstract/43/10/1885. 
  12. ^ Hirano, Tsutomu; Nohtomi, Kyoko; Koba, Shinji; Muroi, Ayako; Ito, Yasuki (2008). "A simple and precise method for measuring HDL-cholesterol subfractions by a single precipitation followed by homogenous HDL-cholesterol assay". The Journal of Lipid Research 49: 1130. doi:10.1194/jlr.D700027-JLR200. 
  13. ^ Nagourney, Eric (July 1, 2008). "Aging: Good Cholesterol, Good Memory". The New York Times. http://www.nytimes.com/2008/07/01/health/research/01agin.html. Retrieved October 8, 2009. 
  14. ^ Singh-manoux, A; Gimeno, D; Kivimaki, M; Brunner, E; Marmot, MG (2008). "Low HDL cholesterol is a risk factor for deficit and decline in memory in midlife: the Whitehall II study". Arteriosclerosis, thrombosis, and vascular biology 28 (8): 1556–62. doi:10.1161/ATVBAHA.108.163998. PMID 18591462. 
  15. ^ Fogoros, Richard N. (September 15, 2009). "Raising Your HDL Levels". About.com. http://heartdisease.about.com/cs/cholesterol/a/raiseHDL.htm. Retrieved October 8, 2009. 
  16. ^ Spate-douglas, T; Keyser, RE (1999). "Exercise intensity: its effect on the high-density lipoprotein profile". Archives of physical medicine and rehabilitation 80 (6): 691–5. doi:10.1016/S0003-9993(99)90174-0. PMID 10378497. 
  17. ^ "Eating Meat When You Have High Cholesterol" url=http://www.webmd.com/cholesterol-management/eating-meat-when-you-have-high-cholesterol
  18. ^ Weidner, G; Connor, SL; Chesney, MA; Burns, JW; Connor, WE; Matarazzo, JD; Mendell, NR (1991). "Sex differences in high density lipoprotein cholesterol among low-level alcohol consumers". Circulation 83 (1): 176–80. PMID 1984880. http://circ.ahajournals.org/cgi/reprint/83/1/176.pdf. 
  19. ^ "The Power of Fish". The Cleveland Clinic Heart and Vascular Institute. http://my.clevelandclinic.org/heart/prevention/nutrition/omega3.aspx. Retrieved October 8, 2009. 
  20. ^ Mensink, Ronald P.; Zock, Peter L.; Kester, Arnold D. M.; Katan, Martijn B. (2003). "Effects of dietary fatty acids and carbohydrates on the ratio of serum total to HDL cholesterol and on serum lipids and apolipoproteins: a meta-analysis of 60 controlled trials". American Journal of Clinical Nutrition 77 (5): 1146. PMID 12716665. http://www.ajcn.org/cgi/content/abstract/77/5/1146. 
  21. ^ a b Soudijn, W; Van Wijngaarden, I; Ijzerman, AP (2007). "Nicotinic acid receptor subtypes and their ligands". Medicinal research reviews 27 (3): 417–33. doi:10.1002/med.20102. PMID 17238156. 
  22. ^ Benatar, JR; Stewart, RA (2007). "Is it time to stop treating dyslipidaemia with fibrates?". The New Zealand medical journal 120 (1261): U2706. PMID 17853928. http://www.nzma.org.nz/journal/120-1261/2706/. 
  23. ^ Meyers, CD; Kamanna, VS; Kashyap, ML (2004). "Niacin therapy in atherosclerosis". Current opinion in lipidology 15 (6): 659–65. doi:10.1097/00041433-200412000-00006. PMID 15529025. 
  24. ^ Rader, Daniel J. (2004). "Raising HDL in Clinical Practice". Raising HDL in Clinical Practice: Clinical Strategies to Elevate HDL. http://cme.medscape.com/viewarticle/479499_5. Retrieved October 8, 2009. 
  25. ^ a b Brewer, H. Bryan (December 27, 2005). "Raising HDL-Cholesterol and Reducing Cardiovascular Risk: An Expert Interview With H. Bryan Brewer, Jr, MD". http://cme.medscape.com/viewarticle/520393. Retrieved October 8, 2009. 
  26. ^ Chapman, M. John; Assmann, Gerd; Fruchart, Jean-Charles; Shepherd, James; Sirtori, Cesare; European Consensus Panel on HDL-C (2004). "Raising high-density lipoprotein cholesterol with reduction of cardiovascular risk: the role of nicotinic acid – a position paper developed by the European Consensus Panel on HDL-C". Current medical research and opinion 20 (8): 1253–68. doi:10.1185/030079904125004402. PMID 15324528. 
  27. ^ Drexel, H. (2006). "Reducing risk by raising HDL-cholesterol: the evidence". European Heart Journal Supplements 8: F23. doi:10.1093/eurheartj/sul037. 
  28. ^ Meyers, C. Daniel; Carr, Molly C.; Park, Sang; Brunzell, John D. (2003). "Varying Cost and Free Nicotinic Acid Content in Over-the-Counter Niacin Preparations for Dyslipidemia". Annals of Internal Medicine 139 (12): 996. PMID 14678919. http://www.annals.org/cgi/content/abstract/139/12/996. 

External links

v  d  e
Lipids: lipoprotein metabolism
Apolipoproteins
APOA (1, 2, 5) · APOB · APOC (1, 2, 3, 4) · APOD · APOE · APOH
Lipoproteins
HDL
LDL
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