Lipolysis
(Redirected from Lipolytic)
Lipolysis refers to the metabolic pathway responsible for the catabolism of lipids, primarily involving the hydrolysis of triglycerides to yield glycerol and free fatty acids. This process is integral for the mobilization of stored fats, making them available as an energy source for the body.
Overview[edit | edit source]
Lipids, a diverse group of organic compounds, play an essential role in energy storage, among other functions. Their breakdown, lipolysis, releases energy-rich molecules which can be utilized by various tissues in the body. The predominant lipid involved in this process is the triglyceride.
Biochemical Process[edit | edit source]
The molecular breakdown of triglycerides into glycerol and free fatty acids is the core of lipolysis. This reaction is facilitated by the action of certain enzymes and is often stimulated or modulated by various hormones.
Hormonal Regulation[edit | edit source]
Several hormones play a critical role in the regulation of lipolysis:
These hormones interact with 7TM receptors, also known as G protein-coupled receptors, which subsequently activates adenylate cyclase. This chain of reactions leads to an increased concentration of cAMP in cells. Elevated cAMP levels, in turn, activate protein kinase A, which goes on to activate lipases present in adipose tissue.
Triglyceride Transport[edit | edit source]
Triglycerides are transported via the bloodstream to requisite tissues such as adipose and muscle tissues. This transport mechanism involves lipoproteins, primarily VLDL (Very-Low-Density-Lipoproteins). When VLDL reaches its target tissue, the resident cellular lipases induce lipolysis on the triglycerides, producing glycerol and free fatty acids.
Utilization of Products[edit | edit source]
The molecules produced through lipolysis are routed to various destinations for further metabolism or use:
Free Fatty Acids[edit | edit source]
Once released into the bloodstream, free fatty acids can be taken up by cells for energy production[1]. Those not immediately assimilated by cells may be transported by binding to albumin. Here, serum albumin plays a significant role as it is the primary carrier of free fatty acids in the blood[2].
Glycerol[edit | edit source]
The glycerol that gets released into the bloodstream following lipolysis is typically absorbed by the liver or kidneys. In these organs, glycerol is transformed into glycerol 3-phosphate by the enzyme glycerol kinase. Subsequently, glycerol 3-phosphate undergoes further metabolic changes, eventually joining pathways like glycolysis and gluconeogenesis.
Esterification: The Counterpart to Lipolysis[edit | edit source]
While lipolysis focuses on the degradation of triglycerides, its antithesis, esterification, entails the formation of triglycerides. The processes of esterification and lipolysis are interlinked and essentially operate as opposite reactions.
See Also[edit | edit source]
References[edit | edit source]
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