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Additional recommended knowledge
LPS is a major component of the outer membrane of Gram-negative bacteria, contributing greatly to the structural integrity of the bacteria, and protecting the membrane from certain kinds of chemical attack. LPS is an endotoxin, and induces a strong response from normal animal immune systems. The only Gram-positive bacteria that possesses LPS is Listeria monocytogenes, the common infective agent in unpasteurized milk.
LPS acts as the prototypical endotoxin, because it binds the CD14/TLR4/MD2 receptor complex, which promotes the secretion of pro-inflammatory cytokines in many cell types, but especially in macrophages. An "LPS challenge" in immunology is the exposing of the subject to an LPS which may act as a toxin.
LPS also increases the negative charge of the cell membrane and helps stabilize the overall membrane structure.
It comprises three parts:
Core oligosaccharide contains unusual sugars (e.g. KDO, keto-deoxyoctulonate and heptose).
The core oligosaccharide is attached to lipid A, which is also in part responsible for the toxicity of gram-negative bacteria.
The polysaccharide side chain is referred to as the O-antigen of the bacteria. O side chain (O-antigen) is also a polysaccharide chain that extends from the core polysaccharide. The composition of the O side chain varies between different gram-negative bacterial strains. The presence or absence of O chains determine whether the LPS is considered rough or smooth. Full length O-chains would render the LPS smooth while the absence or reduction of O-chains would make the LPS rough. Bacteria with rough LPS usually have more penetrable cell membranes to hydrophobic antibiotics since a rough LPS is more hydrophobic. 
O side chains are easily recognized by the antibodies of the host, however, the nature of the chain can easily be modified by Gram-negative bacteria to avoid detection. The structure of the core and the O-antigen is often determined by methylation analysis or NMR-spectroscopy.
The making of LPS can be modified in order to present a specific sugar structure. Those can be recognised by either other LPS (which enables to inhibit LPS toxins) or glycosyltransferases which use those sugar structure to add more specific sugars.
Variability and effect upon specificity
O-antigens (the outer carbohydrates) are the most variable portion of the LPS molecule, imparting the antigenic specificity. In contrast, lipid A is the most conserved part. However, —lipid A composition also may vary (e.g., in number and nature of acyl chains even within or between genera). Some of these variations may impart antagonistic properties to these LPS. For example Rhodobacter sphaeroides diphosphoryl lipid A (RsDPLA) is a potent antagonist of LPS in human cells, but is an agonist in hamster and equine cells.
It has been speculated that conical Lipid A (eg from E coli) are more agonistic, less conical lipid A like those of Porphyromonas gingivalis may activate a different signal (TLR2 instead of TLR4), and completely cylindrical lipid A like that of Rhodobacter sphaeroides is antagonistic to TLRs.
LPS function has been under experimental research for several years due to its role in activating many transcription factors. LPS also produces many types of mediators involved in septic shock.
|This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Lipopolysaccharide". A list of authors is available in Wikipedia.|