Sally-Ann Mahoney scite author profile

Expression of the neuropeptide galanin is markedly upregulated within the adult dorsal root ganglion (DRG) after peripheral nerve injury. We demonstrated previously that the rate of peripheral nerve regeneration is reduced in galanin knock-out mice, with similar deficits observed in neurite outgrowth from cultured mutant DRG neurons. Here, we show that the addition of galanin peptide significantly enhanced neurite outgrowth from wild-type sensory neurons and fully rescued the observed deficits in mutant cultures. Furthermore, neurite outgrowth in wild-type cultures was reduced to levels observed in the mutants by the addition of the galanin antagonist M35 [galanin(1-13)bradykinin(2-9)]. Study of the first galanin receptor (GalR1) knock-out animals demonstrated no differences in neurite outgrowth compared with wild-type animals. Similarly, use of a GalR1-specific antagonist had no effect on neuritogenesis. In contrast, use of a GalR2-specific agonist had equipotent effects on neuritogenesis to galanin peptide, and inhibition of PKC reduced neurite outgrowth from wild-type sensory neurons to that observed in galanin knock-out cultures. These results demonstrate that adult sensory neurons are dependent, in part, on galanin for neurite extension and that this crucial physiological process is mediated by activation of the GalR2 receptor in a PKC-dependent manner.

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Transglutaminase Forms Midkine Homodimers in Cerebellar Neurons and Modulates the Neurite-Outgrowth Response

Mahoney

Perry

Seddon

et al. 1996

Biochemical and Biophysical Research Communications

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Transglutaminase C in cerebellar granule neurons: Regulation and localization of substrate cross-linking

1995

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Stabilization of neurites in cerebellar granule cells by transglutaminase activity: identification of midkine and galectin-3 as substrates

et al. 2000

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The galanin antagonist M35 has intrinsic agonistic activity in the dorsal root ganglion

2003

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The chimeric peptide M35 (galanin(1-3)-bradykinin(2-9)amide) is a high-affinity galanin receptor ligand which acts as a galanin receptor antagonist in many experimental models such as the flexor reflex and chronic constriction injury in rat. However, more recently there have been conflicting reports that M35 may act as a galanin receptor agonist in certain systems. Here we demonstrate that in the absence of endogenous galanin M35 has an agonistic effect, significantly enhancing neurite outgrowth from cultured adult mouse dorsal root ganglion neurons, albeit at a lower potency than galanin peptide itself. However, in the presence of galanin its agonistic activity is masked and thus it appears to act as a galanin receptor antagonist.

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