Jakobsen_1981_Brain.Res_229_103

Reference

Title : Axonal transport of enzymes and labeled proteins in experimental axonopathy induced by p-bromophenylacetylurea - Jakobsen_1981_Brain.Res_229_103
Author(s) : Jakobsen J , Brimijoin S
Ref : Brain Research , 229 :103 , 1981
Abstract :

Axonal transport was studied by several techniques in the sciatic nerves of adult male Sprague-Dawley rats with neuropathy induced by treatment with p-bromophenylacetylurea (BPAU) in dimethylsulfoxide solution. Control rats were treated with solvent alone. BPAU, 200 mg/kg, induced severe muscle weakness in the hindlimbs, beginning after a latent period of 1 week and progressing to near total paralysis by 2 weeks. Axonal transport of the endogenous transmitter enzymes, acetylcholinesterase, dopamine-beta-hydroxylase and choline acetyltransferase, was normal at both 2 and 15 days after administration of BPAU, as judged by the accumulation of enzyme activity above and below a set of double ligatures on the sciatic nerve. The velocity of fast anterograde transport of [35S] methionine labeled protein was also unaffected by BPAU. However, 4 abnormalities of transport were detected in BPAU- treated rats: (1) doubling of the time for initiation of fast anterograde transport after precursor injection in the dorsal root ganglion, (2) 25% fall in the velocity of slow axonal transport of [3H] leucine labeled protein, (3) 30% reduction in the proximal accumulation of fast transported labeled protein in ligated nerve, 8-30 h after injection of precursor, and (4) 50-60% reduction in distal accumulation of "early arriving" labeled protein, 8-14 h after precursor injection. The last abnormality, suggesting an impaired turnaround from anterograde to retrograde transport, was detected as soon as 2 days after BPAU administration. The turnaround abnormality was correlated with the severity of neuropathy as estimated by independent clinical scoring in the group of rats treated with 200 mg/kg of drug. However, further studies showed that turnaround was delayed even in rats treated with doses as low as 50 mg/kg, which never led to clinically evident neuropathy. Nevertheless it is proposed that the abnormalities of transport play a role, as yet undefined, in the distal axonopathy caused by BPAU.

PubMedSearch : Jakobsen_1981_Brain.Res_229_103
PubMedID: 6171326

Related information

Citations formats

Jakobsen J, Brimijoin S (1981)
Axonal transport of enzymes and labeled proteins in experimental axonopathy induced by p-bromophenylacetylurea
Brain Research 229 :103

Jakobsen J, Brimijoin S (1981)
Brain Research 229 :103