Abstract
Myelin components that inhibit axonal regeneration are believed to contribute significantly to the lack of axonal regeneration noted in the adult central nervous system. Three proteins found in myelin, Nogo, myelin-associated glycoprotein, and oligodendrocyte-myelin glycoprotein, inhibit neurite outgrowth in vitro. All of these proteins interact with the same receptors, namely, the Nogo receptor (NgR) and paired immunoglobulin-like receptor B (PIR-B). As per previous reports, corticospinal tract (CST) regeneration is not enhanced in NgR-knock-out mice after spinal cord injury. Therefore, we assessed CST regeneration in PIR-B-knock-out mice. We found that hindlimb motor function, as assessed using the Basso mouse scale, footprint test, inclined plane test, and beam walking test, did not differ between the PIR-B-knock-out and wild-type mice after dorsal hemisection of the spinal cord. Further, tracing of the CST fibers after injury did not reveal enhanced axonal regeneration or sprouting in the CST of the PIR-B-knock-out mice. Systemic administration of NEP1-40, a NgR antagonist, to PIR-B knock-out mice did not enhance the regenerative response. These results indicate that PIR-B knock-out is not sufficient to induce extensive axonal regeneration after spinal cord injury.
Highlights
Various factors can hamper axonal regeneration after spinal cord injury (SCI),2 including the reduced propensity for growth shown by the axons of the adult CNS (1)
paired immunoglobulinlike receptor B (PIR-B) Expression Is increased after SCI—PIR-B is reported to be expressed in the adult brain, including the cerebral cortex (7); the spatial expression of PIR-B should reflect its role in mediating the responses of corticospinal neurons to inhibitory cues after SCI
In a previous study on Nogo receptor (NgR)-null cerebellar neurons, antibodymediated functional inhibition of PIR-B completely suppressed the inhibitory effects of myelin-associated glycoprotein (MAG), Nogo, and oligodendrocyte-myelin glycoprotein (OMgp) on
Summary
Various factors can hamper axonal regeneration after spinal cord injury (SCI),2 including the reduced propensity for growth shown by the axons of the adult CNS (1). 2 The abbreviations used are: SCI, spinal cord injury; BDA, biotinylated dextran amine; BMS, Basso mouse scale; CST, corticospinal tract; MAG, myelin-associated glycoprotein; NgR, Nogo receptor; Omgp, oligodendrocyte-myelin glycoprotein; PIR-B, paired immunoglobulin-like receptor B.
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