Jeffrey A. Hammer scite author profile

Mammalian peripheral nervous system (PNS) myelin contains several glycoproteins with molecular weights of 19 to 28 kDa, including the major 28 kDa P0 glycoprotein and a recently cloned protein called PMP-22. Some glycoproteins in this M(r) range in humans, cats and some other mammals react with HNK1, a mouse monoclonal antibody that identifies a carbohydrate epitope shared between the immune system and a number of adhesion proteins in the nervous system. A variety of antibodies to P0, PMP-22, and the carbohydrate determinants reacting with HNK1 were used to characterize immunochemically these 19 to 28 kDa glycoproteins of cat PNS myelin. The HNK1-reactive components include P0 and two slightly smaller 23 to 26 kDa proteins that are immunologically related to P0. However, HNK1 reacts most strongly with a lower molecular weight glycoprotein that does not react with the antibodies to P0 and was identified as PMP-22. Since the carbohydrate structure reacting with HNK1 is generally expressed on adhesion molecules, this result suggests that PMP-22 may function in cell-cell or membrane-membrane interactions. Furthermore, the related human anti-MAG monoclonal IgM antibodies from patients with neuropathy also react strongly with PMP-22, suggesting that it may be a target antigen in the pathogenesis of this disease. Purified PNS and CNS myelin from bony fish (toadfish and trout) were also shown to contain major glycoproteins, in the same 19 to 28 kDa M(r) range, that react very strongly with HNK1. It is shown that fish myelin has major proteins of this size that are immunologically and structurally related to mammalian P0, and it is demonstrated here that one of the strongly HNK1-positive proteins reacted well with an antiserum raised to bovine P0. The presence of high levels of the adhesion-related HNK1 epitope on these major myelin proteins of fish suggests that this carbohydrate structure may have played a role in the molecular evolution of myelin.

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Expression of the Myelin‐Associated Glycoprotein in Cultures of Immortalized Schwann Cells

Goda

Hammer

Kobiler

et al. 1991

Journal of Neurochemistry

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Although the myelin-associated glycoprotein (MAG) cannot be detected in primary cultures of rat Schwann cells in the absence of neurons, MAG expression was demonstrated in some lines of cultured Schwann cells that had been immortalized by repetitive passaging. Radioimmunoassay of one such Schwann cell line, S-16, showed a remarkably high MAG concentration of about 1 ng/microgram of total protein, a level that is comparable to the MAG concentration in adult sciatic nerve. The S-16 cells divide very rapidly, are rounder than normal Schwann cells, and elaborate many processes after reaching high density. The cells are galactocerebroside positive, but express little or no P0 glycoprotein or myelin basic protein. As in nerve, the MAG synthesized by the cultured cells is primarily the shorter isoform (S-MAG). Furthermore, the posttranslational processing resembles that occurring in vivo including a similar degree of glycosylation, sulfation of oligosaccharides, and phosphorylation of the polypeptide. The sensitivity of MAG to treatment of the intact cells with trypsin or neuraminidase, as well as surface labeling with [3H]borohydride reduction after periodate oxidation, demonstrated that most of the MAG expressed by the S-16 cells is located on the cell surface. This line of immortalized Schwann cells expressing a remarkably high level of MAG should be useful for investigating the cell biology and function of this glycoprotein.

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Jeffrey A. Hammer

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Immunoreactivity of PMP‐22, P0, and other 19 to 28 kDa glycoprotens in peripheral nerve myelin of mammals and fish with HNK1 and related antibodies

Expression of the Myelin‐Associated Glycoprotein in Cultures of Immortalized Schwann Cells

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