Myelin-Associated Glycoprotein as a Functional Ligand for the Nogo-66 Receptor

Liu, Betty P.; Fournier, Alyson E.; GrandPré, Tadzia; Strittmatter, Stephen M.

doi:10.1126/science.1073031

Cited by 516 publications

(372 citation statements)

References 21 publications

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“…However, this peptide could also be interfering with the ability of Mag and Omgp to bind to Ngr. library, and they found a new ligand that was shown to be Mag 35 . At the same time, our group had co-precipitated the two proteins and had also identified Ngr as a receptor for Mag 36 .…”

Section: Receptors For Inhibitors Of Axonal Growthmentioning

confidence: 99%

“…Given that Nogo-66, Mag and Omgp all interact with Ngr with about the same relatively high affinity 28,32,35,36 , and assuming that they are the only inhibitors (but see later discussion on amino-Nogo) and that there is only one receptor complex, the contribution that each makes depends on two factors -their relative abundance in myelin, and the likelihood of a growth cone encountering each inhibitor as it attempts to regenerate. Mag represents 1 % and 0.1 % of the total myelin protein in the CNS and PNS, respectively, and it is found mostly in the inner myelin loop in the CNS 23,49 .…”

Section: Nogo-a Omgp Magmentioning

confidence: 99%

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Myelin-associated inhibitors of axonal regeneration in the adult mammalian CNS

2003

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Section: Receptors For Inhibitors Of Axonal Growthmentioning

confidence: 99%

Section: Nogo-a Omgp Magmentioning

confidence: 99%

Myelin-associated inhibitors of axonal regeneration in the adult mammalian CNS

2003

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“…Nogo-66, together with both MAG and OMgp, bind and activate the same receptor, the neuronal, glycosyl-phosphatidyl-inositol (GPI)-anchored Nogo-66 Receptor (NgR; Fournier et al, 2001;Domeniconi et al, 2002;Liu et al, 2002a;Wang et al, 2002a) with additional molecules including p75 NTR , Lingo-1 and TAJ/TROY required for signaling (Mi et al, 2004;Shao et al, 2005;Park et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Selective temporal and regional alterations of Nogo-A and small proline-rich repeat protein 1A (SPRR1A) but not Nogo-66 receptor (NgR) occur following traumatic brain injury in the rat

Marklund

Fulp

Shimizu

et al. 2006

Experimental Neurology

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Axons show a poor regenerative capacity following traumatic central nervous system (CNS) injury, partly due to the expression of inhibitors of axonal outgrowth, of which Nogo-A is considered the most important. We evaluated the acute expression of Nogo-A, the Nogo-66 receptor (NgR) and the novel small proline-rich repeat protein 1A (SPRR1A, previously undetected in brain), following experimental lateral fluid percussion (FP) brain injury in rats. Immunofluorescence with antibodies against Nogo-A, NgR and SPRR1A was combined with antibodies against the neuronal markers NeuN and microtubule-associated protein (MAP)-2 and the oligodendrocyte marker RIP, while Western blot analysis was performed for Nogo-A and NgR. Brain injury produced a significant increase in Nogo-A expression in injured cortex, ipsilateral external capsule and reticular thalamus from days 1-7 post-injury (P < 0.05) compared to controls. Increased expression of Nogo-A was observed in both RIP-and NeuN positive (+) cells in the ipsilateral cortex, in NeuN (+) cells in the CA3 region of the hippocampus and reticular thalamus and in RIP (+) cells in white matter tracts. Alterations in NgR expression were not observed following traumatic brain injury (TBI). Brain injury increased the extent of SPRR1A expression in the ipsilateral cortex and the CA3 at all post-injury time-points in NeuN (+) cells. The marked increases in Nogo-A and SPRR1A in several important brain regions suggest that although inhibitors of axonal growth may be upregulated, the injured brain is also capable of expressing proteins promoting axonal outgrowth following TBI. KeywordsNogo-A; Nogo-66 receptor; Small proline-rich repeat protein 1A (SPRR1A); Traumatic brain injury; Oligodendrocytes

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“…A competitive antagonist of NgR, NEP1-40, blocks the inhibitory action of myelin in vitro 51 and enhances both growth of supraspinal axons and functional recovery when administered intrathecally or systemically after thoracic hemisection. 51,52 Another antagonist, NgREcto, is a soluble, truncated form of NgR, which has been shown to alleviate inhibition of both Nogo and myelin in vitro (Fournier et al, 2002). Recent work from our group examines the effects of NgR activity using a different form of soluble NgR in vivo; 53 in these experiments, we found that NgR antagonism augmented rhizotomy-induced sprouting of both descending monoaminergic axons and peptidgeric primary afferents in the cervical dorsal horn.…”

Section: Myelin and Myelin Signaling: An Inhibitory Chorus Linementioning

confidence: 86%

“…[47][48][49][50] As an apparent point of convergence in inhibitory signaling, NgR has taken the stage as a target of strategies aimed at increasing plasticity in the injured spinal cord. A competitive antagonist of NgR, NEP1-40, blocks the inhibitory action of myelin in vitro 51 and enhances both growth of supraspinal axons and functional recovery when administered intrathecally or systemically after thoracic hemisection.…”

Section: Myelin and Myelin Signaling: An Inhibitory Chorus Linementioning

confidence: 99%

Setting the stage for functional repair of spinal cord injuries: a cast of thousands

2005

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Here we review mechanisms and molecules that necessitate protection and oppose axonal growth in the injured spinal cord, representing not only a cast of villains but also a company of therapeutic targets, many of which have yet to be fully exploited. We next discuss recent progress in the fields of bridging, overcoming conduction block and rehabilitation after spinal cord injury (SCI), where several treatments in each category have entered the spotlight, and some are being tested clinically. Finally, studies that combine treatments targeting different aspects of SCI are reviewed. Although experiments applying some treatments in combination have been completed, auditions for each part in the much-sought combination therapy are ongoing, and performers must demonstrate robust anatomical regeneration and/or significant return of function in animal models before being considered for a lead role.Spinal Cord (2005) 43, 134-161.

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Myelin-Associated Glycoprotein as a Functional Ligand for the Nogo-66 Receptor

Cited by 516 publications

References 21 publications

Myelin-associated inhibitors of axonal regeneration in the adult mammalian CNS

Myelin-associated inhibitors of axonal regeneration in the adult mammalian CNS

Selective temporal and regional alterations of Nogo-A and small proline-rich repeat protein 1A (SPRR1A) but not Nogo-66 receptor (NgR) occur following traumatic brain injury in the rat

Setting the stage for functional repair of spinal cord injuries: a cast of thousands

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