Myelin protein zero
Myelin protein zero, also Myelin protein P0, is a single membrane glycoprotein which in humans is encoded by the MPZ gene. P0 is a major structural component of the myelin sheath in the peripheral nervous system. Myelin protein zero is expressed by Schwann cells and accounts for over 50% of all proteins in the peripheral nervous system, making it the most common protein expressed in the PNS. Mutations in myelin protein zero can cause myelin deficiency and are associated with neuropathies like Charcot–Marie–Tooth disease and Dejerine–Sottas disease.
Structure
In humans, the gene that encodes myelin protein zero is located on chromosome 1 near the Duffy locus or the Duffy antigen/chemokine receptor. The gene is about 7,000 bases long and is divided into 6 exons. In total, myelin protein zero is 219 amino acids long and has many basic amino acid residues.Myelin protein zero consists of an extracellular N-terminal domain, a single transmembrane region, and a smaller positively charged intracellular region. Its cytoplasmic domain is highly positively charged but presumably does not fold into a globular structure. The extracellular domain is structurally similar to the immunoglobulin domain and therefore the protein is considered as belonging to immunoglobulin superfamily.
Besides existing as a monomer, myelin protein zero is also known to form dimers and tetramers with other myelin protein zero molecules in vertebrates.
Function
The myelin sheath is a multi-layered membrane, unique to the nervous system, that functions as an insulator to greatly increase the velocity of axonal impulse conduction. Myelin protein zero, absent in the central nervous system, is a major component of the myelin sheath in peripheral nerves. Mutations that disrupt the function of myelin protein zero can lead to less expression of myelin and degeneration of myelin sheath in the peripheral nervous system. Currently, myelin protein zero expression is postulated to be produced by signals from the axon. However, more details about the regulation of myelin protein zero are unknown.It is postulated that myelin protein zero is a structural element in the formation and stabilization of peripheral nerve myelin. Myelin protein zero is also hypothesized to serve as a cell adhesion molecule, holding multiple layers of myelin together. When a myelinating cell wraps its membrane around an axon multiple times, generating multiple layers of myelin, myelin protein zero helps keep these sheets compact by serving as a "glue" that keeps the layers of myelin together. It does so by holding its characteristic coil structure together by the electrostatic interactions of its positively charged intracellular domain with acidic lipids in the cytoplasmic face of the opposite bilayer. and by interaction between hydrophobic globular 'heads' of adjacent extracellular domains.
Myelin protein zero's function is similar to the function of other proteins with immunoglobin domains like polyimmunoglobin and T4 protein. These proteins function as binding and adhesion molecules and participate in homotypic interactions, or interactions that involve two similar proteins. Myelin protein zero holds together the myelin sheath by participating in homotypic interactions with other myelin protein zero proteins. Myelin protein zero's extracellular domain binds to the myelin sphingolipid membrane and holds together myelin layers using homotypic interactions with other myelin protein zero extracellular domains, and with extracellular tryptophan residues interacting with the membrane.
Myelin protein zero has also been demonstrated to interact with other proteins like peripheral myelin protein 22. However, at this point the purpose of these interactions has not yet been determined.