Brain, Vol. 115, No. 3, 935-955, 1992
© 1992 Guarantors of Brain
research-article |
DISTAL MOTOR AXONOPATHY AND CENTRAL NERVOUS SYSTEM MYELIN VACUOLATION CAUSED BY CYCLOLEUCINE, AN INHIBITOR OF METHIONINE ADENOSYLTRANSFERASE
1Department of Neuropathology, Institute of Neurology Queen Square 2Departments of Child Health, Institute of Child Health Great Ormond Street, London, UK
Correspondence to:
Correspondence to: Professor L. W. Duchen, Department of Neuropathology, Institute of Neurology. The National Hospital, Queen Square, London WC1N 3BG, UK
Cycloleucine (CL), an inhibitor of methionine adenosyltransferase, has previously been used to produce an experimental model of subacute combined degeneration of the spinal cord. A re-investigation of its effects on the morphology of the nervous system and on brain concentrations of methionine and S-adenosylmethionine (SAM) was undertaken.
Cycloleucine was administered as a single dose intraperitoneally (2 mg/g body weight) to young mice aged 21 d and adults aged 6 or 10 wks. The 21-day-old mice showed clinical evidence of toxicity within 24 h and thereafter developed progressive muscle weakness and ataxia. Animals did not survive longer than 1 wk. Light and electron microscopic examination of the central and peripheral nervous systems showed that intramyelinic vacuolation developed in the white matter of brain and cord within 12 h. The intramyelinic vacuolation in the white matter of brain and cord became more severe with longer survival, vacuoles coalescing and secondary axonal degeneration becoming evident. There was no myelin vacuolation in peripheral nerves. Axonal lesions occurred in the distal parts of motor nerves within 12–24 h resulting in degeneration of intramuscular nerves fibres and terminals. Later there was evidence of axonal degeneration in tibial and sciatic nerves. Many dorsal root ganglion cells became vacuolated or necrotic and numerous degenerated fibres were noted in the white matter of the spinal cord, particularly in the gracile funiculus. The optic nerves were not affected at any stage.
In adult mice the pathology consisted of distal motor axonal degeneration which developed at 1–2d. Little or no intramyelinic vacuolation in white matter was noted.
Brain concentrations of SAM were reduced and levels of methionine became greatly elevated. The morphological effects of CL are considered to be the result of SAM deficiency impairing transmethylation processes known to be important in the formation and stabilization of myelin through the methylation of myelin basic protein. The immature developing central nervous system is much more vulnerable than the fully myelinated adult brain and spinal cord. The distal, predominantly motor axonopathy is a new observation and may be a reflection of the importance of transmethylation processes in the maintenance of axonal terminal membranes and the mechanisms of release of acetylcholine at the neuromuscular junction.
Received November 12, 1991. Revised February 3, 1992. Accepted February 7, 1992.
CiteULike 
Connotea 
Del.icio.us What's this?
This article has been cited by other articles:
|
|
 |
|
  A. Di Rocco, T. Bottiglieri, P. Werner, A. Geraci, D. Simpson, J. Godbold, and S. Morgello Abnormal cobalamin-dependent transmethylation in AIDS-associated myelopathy Neurology, March 12, 2002; 58(5): 730 - 735. [Abstract] [Full Text] [PDF]
|
|
|
|
 |
|
 M. Gemert and J. Killeen Chemically Induced Myelinopathies International Journal of Toxicology, April 1, 1998; 17(3): 231 - 275. [Abstract] [PDF]
|
|
|
|
 |
|
 A. A. Sadun, J. F. Martone, R. Muci-Mendoza, L. Reyes, L. DuBois, J. C. Silva, G. Roman, and B. Caballero Epidemic Optic Neuropathy in Cuba: Eye Findings Arch Ophthalmol, May 1, 1994; 112(5): 691 - 699. [Abstract] [PDF]
|
|