Myelin-associated glycoprotein-mediated signaling in central nervous system pathophysiology

The myelin-associated glycoprotein ( MAG) is a type I membrane-spanning protein expressed exclusively in oligodendrocytes and Schwann cells. It has two generally known pathophysiological roles in the central nervous system ( CNS): maintenance of myelin integrity and inhibition of CNS axonal regeneration. The subtle CNS phenotype resulting from genetic ablation of MAG expression has made mechanistic analysis of its functional role in these difficult. However, the past few years have brought some major revelations, particularly in terms of mechanisms of MAG signaling through the Nogo-66 receptor ( NgR) complex. Although apparently converging through NgR, a readily noticeable fact is that the neuronal growth inhibitory effect of MAG differs from that of Nogo-66. This may result from the influence of coreceptors in the form of ganglio-sides or from MAG-specific neuronal receptors such as NgR2. MAG has several other neuronal binding partners, and some of these may modulate its interaction with the NgR complex or downstream signaling. This article discusses new findings in MAG-forward and -reverse signaling and its role in CNS pathophysiology.