Pathological findings in the x-linked form of Charcot-Marie-Tooth disease: a morphometric and ultrastructural analysis.

Abstract

Mutations in the connexin 32 gene (Cx 32) are associated with the x-linked form of Charcot-Marie-Tooth disease (CMTX) and segregate with a CMT 1 phenotype. The gap junction protein Cx 32 is expressed in myelinating Schwann cells and has been localized to regions of non-compacted cytoplasm in paranodes and in Schmidt-Lanterman incisures. Mutant Cx 32 myelin proteins are predicted to impair Schwann cell functions. We have studied the resulting pathology in motor and sensory nerves from the probands of 13 CMTX kindreds with precisely defined genotype. This report provides a detailed descriptive and morphometric analysis of 14 CMTX nerve biopsy samples, taken at various stages in the development of the neuropathy and studied by light and electron microscopic examination. Findings indicated unusually prominent changes in paranodal myelin with resulting widened nodes of Ranvier, but with segmental demyelination being less common. In parallel early axonal cytoskeletal abnormalities were noted, which were followed later by axonal atrophy, degeneration and loss of myelinated nerve fibers, occurring in a length-dependent fashion. Regenerative sprouting was also unusually prominent. Ultrastructural abnormalities included a frequent dilatation of the adaxonal spaces, prominence of the adaxonal Schwann cell cytoplasm and widening of the Schmidt-Lanterman incisures. We conclude that mutations in Cx 32 gap junction protein lead to a compromise of Schwann cell functions and to impaired Schwann cell-axon interactions with subsequent pathology in both myelin and axons.