P.M. Edwards scite author profile

The neuron-specific phosphoprotein B-50 was originally identified as a phosphoprotein in synaptic plasma membranes isolated from adult brain tissue. In this paper we study the reinnervation of the soleus muscle, a target muscle of sciatic nerve axons, using affinity-purified anti-B-50 antibodies. Light-microscopical evaluation of the reinnervation process revealed that the period of muscle fiber reinnervation corresponds closely with the time in which high B-50 immunoreactivity was observed in the nerve fibers that invade the muscle and in the newly formed neuromuscular junctions. Upon completion of reinnervation, B-50 immunoreactivity decreased. In the newly innervating terminals, B-50 was associated with presynaptic vesicular structures and with the presynaptic plasma membrane. In intact mature neuromuscular junctions, virtually no B-50 immunoreactivity could be detected with either light- or electron-microscopic procedures. These observations corroborate the association of high levels of B-50/GAP43 during axon outgrowth and support the concept that B-50 may be a key molecule in the reconstruction of axonal structures. We also observed an unexpected transient increase in B-50 immunoreactivity in the degenerating neuromuscular junctions. This observation cannot be explained in terms of increased neuronal synthesis of B-50, since the degenerating axon processes have been completely disconnected from their cell bodies. Thus, our evidence implies that a rise of B-50 immunoreactivity can be associated with stages of neuronal degeneration as well as with those of neuronal differentiation and axon outgrowth.

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The kinase c substrate protein b-50 and axonal regeneration

Verhaagen

Hooff

Edwards

et al. 1986

Brain Research Bulletin

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. The kinase C substrate protein B-50 and axonaf regeneration. BRAIN RES BULL 17(6) [737][738][739][740][741] 1986.-As reported previously the prominent protein kinase C substrate protein B-50 is present in growth cones isolated from fetal rat brain and in outgrowing hippocampal neurites. These findings suggest that B-50 plays a role in axonal growth during development of the nervous system. In the present paper the fate of B-50 is investigated in regenerating rat sciatic nerve. Using afftnity-purified anti-B-50 antibodies B-50 levels have been compared in crushed and contralateral intact nerves by means of immunoblotting and radioimmunoassay. B-50 levels in the crushed nerve increased 5.3-fold as compared to non-crushed controls. Furthermore, the cellular localization of B-50 has been assessed by immunohistochemistry.Virtually no B-50 immunoreactivity was seen in control nerves, but bright immunofluorescence appeared in regenerating sprouts. Our data are in line with current evidence from several laboratories that B-50 is a member of a small family of growth-associated proteins and support the hypothesis that B-50 is involved in axonal growth. Axonal regenerationPhosphoprotein B-50 Immunochemistry Growth-associated proteins THE neuron-specific phosphoprotein B-50 (MW 48 kDa, IEP 4.5) [38] is a major endogenous substrate of protein kinase C [I] and may be involved in a feedback mechanism in the receptor-mediated hydrolysis of polyphosphoinositides [8, 13, 27, 321. In adult rat brain the B-50 protein is predominantly localized in cell membranes of presynaptic terminals [9,29]. The relatively high levels of endogenous B-50 phosphorylation in fetal and neonatal rat brain membranes [ 11,201 and the presence of B-50 in outgrowing hippocampal neurites [22] and in nerve growth cones isolated from fetal rat brain [6] suggest a role of this phosphoprotein in neurite outgrowth. In the present paper B-50 is studied during neurite outgrowth in the regenerating rat sciatic nerve following crush damage. We report here that during regenerative axonal outgrowth the amount of B-50 in the sciatic nerve increases 5.3-fold. B-50 immunoreactivity is localized in regenerating axons and newly formed sprouts that cross the lesion. Therefore this study demonstrates the involvement of an immunochemically characterized and quantitated growth-associated phosphoprotein in outgrowing neural sprouts. METHOD

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The expression of B-50/GAP-43 in Schwann cells is upregulated in degenerating peripheral nerve stumps following nerve injury

et al. 1993

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We have detected mRNA for B-50 (GAP-43, pp46, F1, neuromodulin), which was originally believed to be a neuron-specific protein, in non-neuronal cells in the rat sciatic nerve. In control rats, the level of B-50 mRNA in sciatic nerve tissue was much lower than in dorsal root ganglia. Following nerve crush or transection, the expression of B-50 mRNA in the distal nerve stump increased dramatically between 1 and 2 days post-injury. The B-50 mRNA levels in the distal stump of crushed nerves remained elevated for up to 4 weeks and subsequently returned to control levels after 7 weeks. In contrast, after nerve transection B-50 mRNA levels in the distal nerve portion continued to increase up to 7 weeks post-lesion. No changes in the levels of the B-50 transcript were observed in the proximal portion of either crush-lesioned or transected sciatic nerves. In situ hybridization demonstrated B-50 mRNA associated with Schwann cells in the distal nerve stump. The observation that Schwann cells are capable of producing B-50 mRNA was confirmed by Northern blot analysis of total RNA isolated from primary Schwann cell cultures. Taken together, these data show the expression of B-50 mRNA by Schwann cells and the up-regulation of B-50 mRNA in reactive Schwann cells upon loss of axonal contact.

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P.M. Edwards

A simple, sensitive, and objective method for early assessment of acrylamide neuropathy in rats

Variables influencing the toxic response to organophosphates in humans

Light- and electron-microscopical study of phosphoprotein B-50 following denervation and reinnervation of the rat soleus muscle

The kinase c substrate protein b-50 and axonal regeneration

The expression of B-50/GAP-43 in Schwann cells is upregulated in degenerating peripheral nerve stumps following nerve injury

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