[wpdreams_ajaxsearchpro_results id=1 element='div']

What’s Ceramide?

[ad_1]

Ceramides are lipid molecules found in cell membranes that act as signaling molecules for various cellular functions. They can be generated through hydrolysis, de novo synthesis, or the salvage pathway. Ceramide can activate cellular functions such as cell growth arrest, differentiation, and apoptosis, and may help suppress cancer. The process by which ceramide acts as a signaling molecule is not fully understood.

A ceramide is a lipid molecule composed of the amino acid sphingosine and a fatty acid. These molecules exist in large concentrations in the plasma membrane of a cell and act as signaling molecules for a variety of cellular functions. They may also play a role in some disease states, including cancer, diabetes, obesity and inflammation.
All cells are covered by a semipermeable membrane composed of a lipid bilayer, two rows of lipid molecules. Each lipid molecule has a hydrophilic protein head facing out of the membrane and a tail composed of fatty acid. The cell membrane is designed to selectively allow molecules to enter or exit the cell and aid in a number of cellular functions. In a ceramide, the head is sphingosine.

Ceramide activates cellular functions including cell growth arrest, cell senescence, differentiation, proliferation, adhesion, cell migration, and apoptosis or programmed cell death. It is believed to help suppress the spread of cancer through some of these functions. A number of chemicals and other stress-associated triggers lead to the generation of these molecules in cells.

There are three methods to generate ceramide: hydrolysis of sphingomyelin, de novo synthesis, and salvage route. In sphingomyelin hydrolysis, sphingomyelin, a common sphingolipid in the cell membrane, is activated by the sphingomyelinase enzyme to undergo hydrolysis, in which the molecule breaks down through a reaction with water. As a result ceramide is produced.

In de novo synthesis, a number of enzymes create the molecule from a number of simpler enzymes. It is synthesized in the endoplasmic reticulum in this process then transferred to the Golgi apparatus. In the salvage pathway, complex sphingolipids are broken down to form sphingosine, which in turn is used to synthesize ceramide.

Ceramide is not yet fully understood and the process by which it acts as a signaling molecule is unknown. It has been hypothesized to stabilize lipid rafts, platforms made up of smaller lipids, which can link extracellular signals to signals within the cell.

[ad_2]