Upon spinal cord injury, the central nervous system axons are unable to regenerate, partially due to the repulsive action of myelin inhibitors, such as the myelin-associated glycoprotein (MAG), Nogo-A Show more
Upon spinal cord injury, the central nervous system axons are unable to regenerate, partially due to the repulsive action of myelin inhibitors, such as the myelin-associated glycoprotein (MAG), Nogo-A and the oligodendrocyte myelin glycoprotein (OMgp). These inhibitors bind and signal through a single receptor/co-receptor complex that comprises of NgR1/LINGO-1 and either p75 or TROY, triggering intracellular downstream signaling that impedes the re-growth of axons. Structure-function analysis of myelin inhibitors and their neuronal receptors, particularly the NgRs, have provided novel information regarding the molecular details of the inhibitor/receptor/co-receptor interactions. Structural and biochemical studies have revealed the architecture of many of these proteins and identified the molecular regions important for assembly of the inhibitory signaling complexes. It was also recently shown that gangliosides, such as GT1b, mediate receptor/co-receptor binding. In this review, we highlight these studies and summarize our current understanding of the multi-protein cell-surface complexes mediating inhibitory signaling events at the neuron/myelin interface. Show less
Upon spinal cord injury, the myelin inhibitors, including the myelin-associated glycoprotein (MAG), Nogo-A and the oligodendrocyte myelin glycoprotein (OMgp), bind to and signal via a single neuronal Show more
Upon spinal cord injury, the myelin inhibitors, including the myelin-associated glycoprotein (MAG), Nogo-A and the oligodendrocyte myelin glycoprotein (OMgp), bind to and signal via a single neuronal receptor/co-receptor complex comprising of Nogo receptor 1(NgR1)/LINGO-1 and p75 or TROY, impeding regeneration of injured axons. We employed a cell-free system to study the binding of NgR1 to its co-receptors and the myelin inhibitor Nogo-A, and show that gangliosides mediate the interaction of NgR1 with LINGO-1. Solid phase binding assays demonstrate that the sialic acid moieties of gangliosides and the stalk of NgR1 are the principal determinants of these molecular interactions. Moreover, the tripartite complex comprising of NgR1, LINGO-1 and ganglioside exhibits stronger binding to Nogo-A (Nogo-54) in the presence of p75, suggesting the gangliosides modulate the myelin inhibitor-receptor signaling. Show less