High Density Lipoprotein

Information about High Density Lipoprotein

High-density lipoproteins (HDL) form a class of lipoproteins, varying somewhat in their size (8–11 nm in diameter), that carry cholesterol from the body's tissues to the liver. About thirty percent of blood cholesterol is carried by HDL.^[1]

It is hypothesised 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.<ref name="am180" /> When measuring cholesterol, any contained in HDL particles is considered as protection to the body's cardiovascular health, in contrast to "bad" LDL cholesterol.

Structure and function

HDL are the smallest of the lipoproteins. They are the densest because they contain the highest proportion of protein. They contain the A class of apolipoproteins.^[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 they interact with. 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 molecules into their structure. Thus it is the concentration of large HDL particles which 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 only measured by more sophisticated lipoprotein assays using either electrophoresis (the original method developed in the 1970s), or newer NMR spectroscopy, NMR spectroscopy methods, developed in the 1990s.

HDL particles are not inherently protective. It is only the HDL particles which become the largest (actually picking up and carrying cholesterol) which are protective. There is no reliable relationship between total HDL and large HDL, and more sophisticated analyses which actually measure large HDL, not just total, correlate much better with clinical outcomes.

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.

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.

Historically, beginning in the late 1970's cholesterol and lipid assays were promoted to estimate total HDL-cholesterol because such tests used to be far less expensive, by about 50 fold, than measured lipoprotein particle concentrations and subclass analysis. Over time, with continued research, decreasing costs, greater availability and wider acceptance of other "lipoprotein subclass analysis" assay methods, including NMR spectroscopy, human studies have continued to show a stronger correlation between human clinically obvious cardiovascular events and quantitatively measured large HDL-particle concentrations.

Epidemiology

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) are a positive risk factor for these 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. Conversely, for a fixed level of HDL, the risk increases 3-fold as LDL varies from low to high.

Recommended range

The American Heart Association, NIH and NCEP provides a set of guidelines for male fasting HDL levels and risk for heart disease.

Level mg/dL	Level mmol/L	Interpretation
<40	<1.03	Low HDL cholesterol, heightened risk for heart disease, <50 is the value for women
40–59	1.03–1.52	Medium HDL level
>60	>1.55	High HDL level, optimal condition considered protective against heart disease

More sophisticated laboratory methods measure not just the total HDL but also the range of HDL particles, e.g. "lipoprotein subclass analysis", typically divided into several groups by size, instead of just the total HDL concentration as listed above. The largest groups (most functional) of HDL particles have the most protective effects. The groups of smallest particles reflect HDL particles which are not actively transporting cholesterol, thus not protective.

Raising HDL

Drugs

As of 2006, randomized clinical trials have demonstrated significant reduction of atherosclerosis progression and cardiovascular events with treatments that increase HDL-cholesterol (nicotinic acid or a fibrate).^[4]

Pharmacological therapy to increase the level of HDL cholesterol includes use of fibrates and niacin. Consumption of niacin, an immediate release crystalline form of Vitamin B3, can increase HDL levels by 10–30%, and is the most powerful agent currently available to increase HDL-cholesterol.<ref name="ehjs" />^[5] ^[6] The use of statins is effective against high levels of LDL cholesterol, but it has little or no effect in raising HDL-cholesterol. <ref name="rhcrcr" /> The use of antioxidants in combination with statin and niacin therapy reduces the effectiveness of niacin by 33%. (NIH HATS).

Torcetrapib, a promising new 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.

Diet and lifestyle

Certain changes in lifestyle can have a positive impact on raising HDL levels:^[7]

Aerobic exercise^[8]
Weight loss
Smoking cessation
Using supplements such as omega 3 fish oil
Limiting intake of dietary fat to 30–35% of total calories
Removing trans fatty acids from the diet
Adding monounsaturated and polyunsaturated fats to the diet, and reducing or eliminating saturated fats.
Drinking 1–2 servings of alcoholic beverages per day
Adding soluble fiber to diet

References

1. ^ [1]
2. ^ Baylor College of Medicine, Lipids Online (January 29, 2001). Heterogeneity of HDL. Retrieved on February 20, 2006.
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. ^ Reducing risk by raising HDL-cholesterol: the evidence. # European Heart Journal Supplements Vol 8 Suppl F p. F23-F29 [2]
5. ^ Raising HDL-Cholesterol and Reducing Cardiovascular Risk. Medscape Cardiology [3]
6. ^ Chapman M, Assmann G, Fruchart J, Shepherd J, Sirtori C. 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. Cur Med Res Opin. 2004 Aug;20(8):1253-68. PubMed
7. ^ Richard N. Fogoros, M.D.. Raising Your HDL Levels. Retrieved on July 29, 2006.
8. ^ Spate-Douglas, T., Keyser, R. E. Exercise intensity: its effect on the high-density lipoprotein profile. Arch Phys Med Rehabil 80, 691-695. PubMed

External links

• • [ e] Lipids: lipoproteins
Chylomicron \| HDL \| LDL \| IDL \| VLDL \| Lp(a) Apolipoproteins: APOA1 \| APOA2 \| APOB \| APOC1 \| APOC2 \| APOC3 \| APOC4 \| APOD \| APOE \| APOH

A lipoprotein is a biochemical assembly that contains both proteins and lipids. The lipids or their derivatives may be covalently or non-covalently bound to the proteins. Many enzymes, transporters, structural proteins, antigens, adhesins and toxins are lipoproteins.
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1 nanometre =
SI units
010⁻⁹ m 010⁻³ μm
US customary / Imperial units
010⁻⁹ ft 010⁻⁹ in

A nanometre (American spelling: nanometer, symbol nm
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Cholesterol is a sterol (a combination steroid and alcohol), a lipid found in the cell membranes of all tissues, and is transported in the blood plasma of all animals. Because cholesterol is synthesized by all eukaryotes, trace amounts of cholesterol are also found in membranes of
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liver is an organ present in vertebrates and some other animals. It plays a major role in metabolism and has a number of functions in the body, including glycogen storage, decomposition of red blood cells, plasma protein synthesis, and detoxification.
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Atheroma
Classification & external resources

ICD-10 I 70.9
ICD-9 440

DiseasesDB 1039

MeSH C14.907.137.126.307 In pathology, an atheroma
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Arteries are muscular blood vessels that carry blood away from the heart.^[1] All arteries, with the exception of the pulmonary and umbilical arteries, carry oxygenated blood.

The circulatory system is extremely important for sustaining life.
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MeSH D002318 Cardiovascular disease refers to the class of diseases that involve the heart or blood vessels (arteries and veins). While the term technically refers to any disease that affects the cardiovascular system, it is usually used to refer to those related to
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Low-density lipoprotein (LDL) belongs to the lipoprotein particle family. Its size is approx. 22 nm but since LDL particles contain a changing number of fatty acids they actually have a mass and size distribution.
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Proteins are large organic compounds made of amino acids arranged in a linear chain and joined together by peptide bonds between the carboxyl and amino groups of adjacent amino acid residues.
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Apolipoproteins are lipid-binding proteins which are the constituents of the plasma lipoproteins, sub-microscopic spherical particles that transport dietary lipids through the bloodstream from the intestine to the liver, and endogenously synthesized lipids from the liver to tissues
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Blood plasma is the liquid component of blood, in which the blood cells are suspended. It makes up about 55% of total blood volume. Blood plasma is prepared simply by spinning a tube of fresh blood in a centrifuge until the blood cells fall to the bottom of the tube.
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Lecithin-cholesterol acyltransferase (LCAT, also called phosphatidylcholine-sterol O-acyltransferase) is an enzyme which converts free cholesterol into cholesteryl ester (a more hydrophobic form of cholesterol) which is then sequestered into the core of a
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Electrophoresis is the most known electrokinetic phenomena. It was discovered by Reuss in 1809 ^[1]. He observed that clay particles dispersed in water migrate under influence of an applied electric field.
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Nuclear magnetic resonance (NMR) is a physical phenomenon based upon the quantum mechanical magnetic properties of an atom's nucleus. NMR also commonly refers to a family of scientific methods that exploit nuclear magnetic resonance to study molecules.
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Spectroscopy is the study of the interaction between radiation (electromagnetic radiation, or light, as well as particle radiation) and matter. Spectrometry is the measurement of these interactions and an instrument which performs such measurements is a spectrometer or
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Nuclear magnetic resonance spectroscopy most commonly known as NMR spectroscopy is the name given to the technique which exploits the magnetic properties of certain nuclei. This phenomenon and its origins are detailed in a separate section on Nuclear magnetic resonance.
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The fight-or-flight response, also called hyperarousal or the acute stress response, was first described by Walter Cannon in 1915^[1]^[2].
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Identifiers
Symbol SAA2

Entrez 6289
HUGO 10514
OMIM 104751

RefSeq NM_030754
UniProt P02735
Other data

Locus Chr. 11 p15.1-p14

Human Serum amyloid A4

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Acute-phase proteins are a class of proteins whose plasma concentrations increase (positive acute phase proteins) or decrease (negative acute phase proteins) in response to inflammation. This response is called the acute-phase reaction (also called acute phase response).
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Cytokines are a group of proteins and peptides that are used in organisms as signaling compounds. These chemical signals are similar to hormones and neurotransmitters and are used to allow one cell to communicate with another.
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Identifiers
Symbol IL1B
Alt. Symbols , IL1F2

Entrez 3553
HUGO 5992
OMIM 147720
PDB 2MIB
RefSeq NM_000576
UniProt P01584
Other data

Locus Chr. 2 q13-q21 Interleukin-1 (IL-1) is one of the first cytokines ever described.
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Interleukin-6 (IL-6) is a pro-inflammatory cytokine secreted by T cells and macrophages to stimulate immune response to trauma, especially burns or other tissue damage leading to inflammation.
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Cortisol is a corticosteroid hormone produced by the adrenal cortex (in the adrenal gland). It is a vital hormone that is often referred to as the "stress hormone" as it is involved in the response to stress.
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adrenal cortex mediates the stress response through the production of mineralocorticoids and glucocorticoids, including aldosterone and cortisol respectively. It is also a secondary site of androgen synthesis.
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MeSH D000686

In medicine, amyloidosis refers to a variety of conditions in which amyloid proteins are abnormally deposited in organs and/or tissues, causing disease.
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Atherosclerosis
Classification & external resources

Changes in endothelial dysfunction in atherosclerosis (note text comments about geometry error)
ICD-10 I 70.
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Stroke
Classification & external resources

ICD-10 I 61. -I 64.
ICD-9 435 - 436

OMIM 601367
DiseasesDB 2247
MedlinePlus 000726pi
eMedicine neuro/9 emerg/558 emerg/557 pmr/187
MeSH D020521

Stroke (or
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Myocardial infarction
Classification & external resources

Diagram of a myocardial infarction (2) of the tip of the anterior wall of the heart (an apical infarct
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