D. R. Archer scite author profile

Axonal transport and morphological changes were studied in the rabbit vagus nerve after the nerves had been subjected to compression at either 0, 50 or 200 mmHg for two hours. Slow axonally transported proteins, tubulin and actin, were radiolabelled with 35S-methionine two, seven or 14 days after the injury and the distribution of radiolabelled tubulin and actin within component b of slow transport was measured three days later by densitometric analysis of fluorographs of polyacrylamide gel. No significant differences were found in the distribution of tubulin two (50 and 200 mmHg) or seven (200 mmHg) days after injury, but at 14 days (200 mmHg) there was significantly increased radiolabelling of tubulin relative to actin in the nerve 60 to 70 mm from the nodose ganglion. Morphometric measurements of the nerve cell bodies two days after the compression injury at 200 mmHg revealed no significant changes. Previous work has shown that morphological changes, similar to those found after axotomy, were present in nerve cell bodies seven days after a compression injury. This, taken together with the present results, indicates that compression can induce both morphological and biochemical changes in the neurone. The altered axonal transport of tubulin associated with nerve injury follows a slower time course and does not precede the morphological changes. The findings may be of relevance when discussing the double crush syndrome.

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Treatment with an aldose reductase inhibitor can reduce the susceptibility of fast axonal transport following nerve compression in the streptozotocin-diabetic rat

Dahlin

Archer

McLean

1987

Diabetologia

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The effect of treatment with an aldose reductase inhibitor on the susceptibility of peripheral nerves to compression was studied in rats made diabetic by the injection of streptozotocin (50 mg.kg-1). The response to nerve compression was determined in untreated diabetic rats after 22 days of diabetes and compared with the response in two similar groups of diabetic rats which had been treated with the aldose reductase inhibitor 'Statil' (ICI 128436; 25 mg.kg-1.day-1 orally) either from the induction of diabetes or for 7 days prior to nerve compression. Two groups of non-diabetic rats were treated with 'Statil' for either 22 days or 7 days to act as controls. Inhibition of fast axonally transported proteins was induced by local compression of the sciatic nerves 4 h after application of 3H-leucine to the motor neurone cell bodies in the spinal cord. The inhibition of fast axonal transport was quantified by calculation of a transport block ratio. Compression at 30 mmHg for 3 h induced a significantly greater (p less than 0.05) inhibition of axonal transport at the site of compression in nerves of untreated diabetic rats (transport block ratio 0.96 +/- 0.24, n = 8) than in nerves of control rats treated with the aldose reductase inhibitor for either the shorter time of 7 days (0.71 +/- 0.17, n = 10) or the longer time of 22 days (0.69 +/- 0.08, n = 5).(ABSTRACT TRUNCATED AT 250 WORDS)

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Changes in slow axonal transport of tubulin induced by local application of colchicine to rabbit vagus nerve

Archer

Dahlin

McLean

1994

Acta Physiologica Scandinavica

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The biochemical and morphological responses of the rabbit vagus nerve to local application of colchicine and to nerve crush were investigated. Fourteen days after the cervical vagus nerve had been crushed or subjected to local application of colchicine for 2 h, nodose ganglia of anaesthetized rabbits were either injected with [35S]methionine or [3H]leucine for studies of slow and fast axonal transport, respectively, or prepared for light microscopical examination. The radio-labelled proteins of the faster of the two slow transport groups (SCb; 25-30 mm day-1) were separated by one- or two-dimensional polyacrylamide gel electrophoresis and both radio-labelled tubulin and actin were quantified by densitometry from resulting fluorographs of gels. A relative increase in radio-labelled tubulin was found in SCb in the crushed and colchicine-treated nerves; this increase persisted for up to 50 days after nerve crush. Morphological changes in nerve cell bodies induced by colchicine were similar, but smaller in magnitude than those in crushed nerves. It is concluded that a temporary arrest of axonal transport produced by colchicine can lead to a redistribution of tubulin transport comparable with that found in regenerating nerve.

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D. R. Archer

Identification of plasminogen activator inhibitor-2 as a gastrin-regulated gene: Role of Rho GTPase and menin

Axonal Transport and Morphological Changes Following Nerve Compression

Treatment with an aldose reductase inhibitor can reduce the susceptibility of fast axonal transport following nerve compression in the streptozotocin-diabetic rat

Changes in slow axonal transport of tubulin induced by local application of colchicine to rabbit vagus nerve

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