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Hepatic lipase (HL), also called hepatic triglyceride lipase (HTGL) or LIPC (for "lipase, hepatic"), is a form of
lipase Lipase ( ) is a family of enzymes that catalyzes the hydrolysis of fats. Some lipases display broad substrate scope including esters of cholesterol, phospholipids, and of lipid-soluble vitamins and sphingomyelinases; however, these are usually tr ...
, catalyzing the
hydrolysis Hydrolysis (; ) is any chemical reaction in which a molecule of water breaks one or more chemical bonds. The term is used broadly for substitution reaction, substitution, elimination reaction, elimination, and solvation reactions in which water ...
of
triacylglyceride A triglyceride (TG, triacylglycerol, TAG, or triacylglyceride) is an ester derived from glycerol and three fatty acids (from ''tri-'' and ''glyceride''). Triglycerides are the main constituents of body fat in humans and other vertebrates, as w ...
. Hepatic lipase is coded by chromosome 15 and its gene is also often referred to as HTGL or LIPC. Hepatic lipase is expressed mainly in liver cells, known as hepatocytes, and endothelial cells of the liver. The hepatic lipase can either remain attached to the liver or can unbind from the liver endothelial cells and is free to enter the body's circulation system. When bound on the endothelial cells of the liver, it is often found bound to HSPG, heparan sulfate proteoglycans (HSPG), keeping HL inactive and unable to bind to HDL (high density lipoprotein) or IDL (intermediate density lipoprotein). When it is free in the bloodstream, however, it is found associated with HDL to maintain it inactive. This is because the triacylglycerides in HDL serve as a substrate, but the lipoprotein contains proteins around the triacylglycerides that can prevent the triacylglycerides from being broken down by HL. One of the principal functions of hepatic lipase is to convert
intermediate-density lipoprotein Intermediate-density lipoproteins (IDLs) belong to the lipoprotein particle family and are formed from the degradation of very low-density lipoproteins as well as high-density lipoproteins. IDL is one of the five major groups of lipoproteins (chyl ...
(IDL) to
low-density lipoprotein Low-density lipoprotein (LDL) is one of the five major groups of lipoprotein that transport all fat molecules around the body in extracellular water. These groups, from least dense to most dense, are chylomicrons (aka ULDL by the overall densit ...
(LDL). Hepatic lipase thus plays an important role in triglyceride level regulation in the blood by maintaining steady levels of IDL, HDL and LDL.


Function

Hepatic lipase falls under a class of enzymes known as
hydrolase Hydrolase is a class of enzyme that commonly perform as biochemical catalysts that use water to break a chemical bond, which typically results in dividing a larger molecule into smaller molecules. Some common examples of hydrolase enzymes are este ...
s. Its function is to hydrolyze
triacylglycerol A triglyceride (TG, triacylglycerol, TAG, or triacylglyceride) is an ester derived from glycerol and three fatty acids (from ''tri-'' and ''glyceride''). Triglycerides are the main constituents of body fat in humans and other vertebrates, as ...
to
diacylglycerol A diglyceride, or diacylglycerol (DAG), is a glyceride consisting of two fatty acid chains covalently bonded to a glycerol molecule through ester linkages. Two possible forms exist, 1,2-diacylglycerols and 1,3-diacylglycerols. DAGs can act as s ...
and
carboxylate In organic chemistry, a carboxylate is the conjugate base of a carboxylic acid, (or ). It is an ion with negative charge. Carboxylate salts are salts that have the general formula , where M is a metal and ''n'' is 1, 2,...; ''carboxylat ...
(free fatty acids) with the addition of water. The substrate,
triacylglycerol A triglyceride (TG, triacylglycerol, TAG, or triacylglyceride) is an ester derived from glycerol and three fatty acids (from ''tri-'' and ''glyceride''). Triglycerides are the main constituents of body fat in humans and other vertebrates, as ...
, comes from IDL (
Intermediate-density lipoprotein Intermediate-density lipoproteins (IDLs) belong to the lipoprotein particle family and are formed from the degradation of very low-density lipoproteins as well as high-density lipoproteins. IDL is one of the five major groups of lipoproteins (chyl ...
) and the release of free fatty acids converts IDL into LDL (
Low-density lipoprotein Low-density lipoprotein (LDL) is one of the five major groups of lipoprotein that transport all fat molecules around the body in extracellular water. These groups, from least dense to most dense, are chylomicrons (aka ULDL by the overall densit ...
). These remaining remnants of LDL can be sent back to the liver, where it can be stored for later use or broken down to harness its energy. It can also be sent to peripheral cells for its cholesterol and used in anabolic pathways to build molecules that the cell needs such as hormones that include a cholesterol backbone. To prevent the build-up of plaque (also referred to as a lipid pool), nascent HDL molecules which are low in triglycerides, take off free fatty acids from the plaques through the help of ABCL1 proteins. These proteins help transfer free fatty acids from plaques in the arteries to HDL. This process creates HDL3 (High density lipoprotein 3), a mature HDL molecule that has been esterified by another enzyme known as LCAT. More free fatty acids can be taken up from the plaque by SR-B1 receptors, which convert HDL3 to HDL2 which contains higher concentrations of free fatty acids. HDL2 can then interact with LDL and IDL by transferring over fatty acids that have accumulated in the plaque. Hepatic lipase can then catalyze the conversion of IDL to LDL by breaking down triacylglycerides in IDL and release free fatty acids to be used by other cells with low concentrations of cholesterol or stored in the liver for later use.


Hepatic lipase regulation

The human body contains two inactive forms of HL. One inactive form is found on the liver bound to HSPG (heparin sulfate proteoglycans) and the second inactive form is found in the blood bound to HDL, inactivated by the proteins on the surface of the lipoprotein. The activation of HL occurs in two steps. First, HDL that makes its way to the liver, binds to HL thereby removing the heparan sulfate proteoglycan and freeing up the hepatic lipase into the bloodstream, but HL is still inactive due to the proteins on the surface of the lipoprotein. Second, HDL unbinds from HL to activate HL enzymes in the blood. HDL has been found to be regulated by electrostatic interactions with
Lipoprotein A lipoprotein is a biochemical assembly whose primary function is to transport hydrophobic lipid (also known as fat) molecules in water, as in blood plasma or other extracellular fluids. They consist of a triglyceride and cholesterol center, sur ...
such as HDL. When HDL takes up free fatty acids from cells to prevent plaque build-up, it begins to increase its overall negative charge and instead stimulates HL to catalysis the triacylglycerides inside of VLDL (very low density lipoprotein). This is because the build-up of negative charge in HDL inhibits binding, but will allow HL to catalyze other lipoproteins. Other lipoproteins, such as ApoE, works in a similar way by inhibiting binding of HL and HDL but will allow HL to catalyze other lipoproteins. Other factors that contribute the regulation of HL are due to sex differences between women and men. It has been shown that women contain lower levels of ApoE along with an increased amount of free HL enzymes in their circulatory system when compared to men. The production of estrogen in women is also believed to reduce the activity of HL by serving as an inhibitor of gene transcription. Secretion of HDL from the liver into the circulatory system regulates the release of HL into the body's bloodstream. This is because factors that increase the release of HDL (such as fasting, leading to low levels of HDL) increases the amount of HL bound to HDL and released into the bloodstream. Another lipoprotein, ApoA-I, which increases release of HDL was shown to have a similar effect by mutating the gene that coded it. Mutated ApoA-I protein caused a decrease in HL release and thus decreased the amount of HL bound to HDL and released into the bloodstream.


Clinical significance

Hepatic lipase deficiency is a rare, autosomal recessive disorder that results in elevated
high density lipoprotein High-density lipoprotein (HDL) is one of the five major groups of lipoproteins. Lipoproteins are complex particles composed of multiple proteins which transport all fat molecules (lipids) around the body within the water outside cells. They are ty ...
(HDL) cholesterol due to a mutation in the hepatic lipase gene. Clinical features are not well understood and there are no characteristic
xanthomas A xanthoma (pl. xanthomas or xanthomata) (condition: xanthomatosis) is a deposition of yellowish cholesterol-rich material that can appear anywhere in the body in various disease states. They are cutaneous manifestations of lipidosis in which lip ...
. There is an association with a delay in
atherosclerosis Atherosclerosis is a pattern of the disease arteriosclerosis in which the wall of the artery develops abnormalities, called lesions. These lesions may lead to narrowing due to the buildup of atheroma, atheromatous plaque. At onset there are usu ...
in an animal model. In many studies that have been conducted, hepatic lipase is also closely related to obesity. In one test, an experiment was created by Cedó et al. where mouse cells were created to have a mutated HL protein that has lost its function. They found that a build-up of triglyceride levels led to nonalcoholic fatty liver disease. This was due to HL's inability to convert the triacylglycerides in IDL, and thereby creating LDL. Thus, the inability of endothelial cells to take up free fatty acids becomes higher and more IDL gets stored in the liver. This deficiency in HL also leads to liver inflammation and obesity problems. In the experiment though, mouse HL is found unbound to heparan sulfate proteoglycans (HSPG) whereas human HL is found attached to heparan sulfate proteoglycans (HSPG), deactivating HL until bound to IDL. More experiments must be performed to determine the potential effects in humans.


References


Further reading

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External links

* {{Lipoprotein metabolism Enzymes Peripheral membrane proteins