Braun's lipoprotein


Braun's lipoprotein, found in some gram-negative cell walls, is one of the most abundant membrane proteins; its molecular weight is about 7.2 kDa. It is bound at its C-terminal end by a covalent bond to the peptidoglycan layer and is embedded in the outer membrane by its hydrophobic head. BLP tightly links the two layers and provides structural integrity to the outer membrane.

Characteristics

The gene encoding Braun's lipoprotein initially produces a protein composed of 78 amino acids, which includes a 20 amino acid signal peptide at the amino terminus. The mature protein is 6 kDa in size. Three monomers of Lpp assemble into a leucine zipper coiled-coil trimer.
Large amounts of Braun's lipoprotein is present, more than any other protein in E. coli. Unlike other lipoproteins, it is linked covalently to the peptidoglycan. Lpp connects the outer membrane to the peptidoglycan. Lpp is anchored to the outer membrane by its amino-terminal lipid group. In E. coli, one third of Lpp proteins form a peptide bond via the side chain of its carboxy-terminal lysine with diaminopimelic acid in the peptidoglycan layer. The rest of the Lpp molecules are present in a "free" form unlinked to peptidoglycan. The free form is exposed on the surface of E. coli.

Functions

Lpp, along with another OmpA-like lipoprotein called Pal/OprL, maintains the stability of the cell envelope by attaching the outer membrane to the cell wall.
Lpp has been proposed as a virulence factor of Yersinia pestis, the cause of plague. Y. pestis needs lpp for maximum survival in macrophages and to efficiently kill mouse models of bubonic and pneumonic plague.

Immunology

Braun's lipoprotein binds to the pattern recognition receptor TLR2. Lpp induces adhesion of neutrophils to human endothelial cells by activating the latter.