Etoposide- and BMY-40481-induced sensory neuropathy in mice.

Abstract

The effects of high toxic doses of the anticancer drugs, etoposide and its phosphate derivative, BMY-40481, on the nervous system of female CD-1 mice were examined by light microscopy (LM) and transmission electron microscopy. Mice were euthanatized 4 wk following a single iv injection of either 0, 50, 100, or 150 mg/kg of BMY-40481 or 44 or 88 mg/kg of etoposide. Mice treated with 100 or 150 mg/kg of BMY-40481 or 88 mg/kg of etoposide had clinical symptomology of progressive ataxia, impaired righting reflex, and splaying and paresis of fore- and hindlimbs at day 8. Similar, dose-related LM changes were observed with both drugs at all doses and consisted of degeneration of dorsal root ganglion cells and axonal degeneration of their distal and proximal processes in peripheral nerves, dorsal spinal roots, and dorsal funiculi of spinal cord. Axonal degeneration was characterized by LM as shrinkage, swelling, and fragmentation of axon cylinders accompanied by secondary demyelination. Degenerative changes in ganglion cell bodies included eccentric nuclei, cytoplasmic vacuolation, central chromatolysis, and peripheral clumping of Nissl's bodies. Ultrastructurally, ganglion cell bodies had focally extensive dilation of the rough endoplasmic reticulum, mitochondrial swelling, increased numbers of phagolysosomes and prominent aggregations of microfilaments (globular filamentous bodies). Ultrastructural axonal changes occurred primarily in large, myelinated fibers and consisted of axonal swelling or loss, thinning of myelin sheaths, and a decrease in the number of organelles. This is the first report of etoposide-related sensory neuropathy in laboratory rats, a model that my be useful for the study of etoposide-related peripheral neuropathy in humans.