Introduction
A lipase is an enzyme that is capable of catalyzing the hydrolysis of fats/lipids which are consumed through oils. It is encoded by the p22 region in chromosome 8. Once synthesized, it is secreted into the inter interstitial space in several tissues. The main site of action for LPL is in the capillary lumen within muscle and adipose tissue. The function of this lipase is to hydrolyze triglycerides of very-low-density lipoproteins (VLDL) and to aid in the delivery of lipid nutrients to vital tissues. The enzyme is commonly found on the surface of cells that line blood capillaries. Two different lipoproteins are essential to break down triglycerides. One of the lipoproteins is utilized to transport fat into the bloodstream from different organs. The lipoproteins essential, in the transport of fat from the intestine, are referred to as chylomicrons. VLDL is utilized in carrying triglycerides from the liver into the bloodstream. The hydrolysis of triglycerides by lipoprotein lipase results in fat molecules being used by the body as energy or stored in fatty tissue.
LPL Wiki
capillary lumen
Structural Overview
Lipoprotein Lipase is assumed to only be active as a , however, previous studies have argued that the lipase can be active in its monomeric form. (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6442593/) The N-terminal domain of lipoprotein lipase is known to consist of an alpha/beta hydrolase domain, which is composed of six alpha-helices and ten beta-strands. This domain creates an alpha/beta hydrolase fold. The C-terminal domain of lipoprotein lipase is composed of twelve beta strands which form a
Mechanism
Lipoprotein Lipase functions to catalyze the hydrolysis of one ester bond of triglycerides. It does this by utilizing a simple serine hydrolase mechanism, in which it uses a composed of Asp183, His268, and Ser159 to catalyze the hydrolysis. His268 serves as a base catalyst by deprotonating Ser159, which can then serve as the nucleophile. The transition state of the catalysis is stabilized by the composed of Trp82 and Leu160. The hydrolysis results in the formation of one free fatty acid and glycerol with two fatty acid tails.
Relevance & Disease
LPL is an extremely important enzyme, in that it breaks down triglycerides carried on VLDL, which leads to the reduction of cholesterol buildup. Cholesterol build-up is a very serious issue with regards to obesity in the United States. In addition to this, increased plasma triglyceride levels (hypertriglyceridemia) are very unhealthy and are the leading cause of Coronary Artery Disease in America. LPL is an enzyme that helps combat this disease by breaking down the excess triglycerides that block the arteries of your heart. Very similarly, Chylomicronemia, a high level of triglycerides in the blood, causes a buildup of chylomicrons (ultra-low-density lipoproteins) and leads to similar diseases. Without LPL in the body, developing coronary & metabolic (liver & pancreas) based diseases are at a higher likelihood.
Structural highlights
Glycosylphosphatidylinositol-anchored high-density lipoprotein-binding protein (GPIHBP1) is necessary for LPL function and stability. (LIVE REFERENCED NEEDED)
References
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Student Contributors
Giselle Flores
Dustin Soe
Maggie Stopa
