PHYSIOLOGICAL CONSEQUENCES OF ANTISERUM-MEDIATED EXPERIMENTAL DEMYELINATION IN CNS

doi:10.1093/brain/111.3.675

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Brain, Vol. 111, No. 3, 675-694, 1988
© 1988 Guarantors of Brain

research-article

PHYSIOLOGICAL CONSEQUENCES OF ANTISERUM-MEDIATED EXPERIMENTAL DEMYELINATION IN CNS

RYUJI KAJI, AKIO SUZUMURA and AUSTIN J. SUMNER

From the Department of Neurology, University of Pennsylvania Philadelphia, USA

Correspondence to: Correspondence to: Dr Ryuji Kaji, Department of Neurology, University of Pennsylvania, 3400 Spruce Street, Philadelphia, PA 19104, USA.

To study the pathophysiology of immunologically mediated demyelinationin the central nervous system (CNS), we injected 20 to 30 µlof polyclonal antigalactoccrebroside serum (AGC) into the lowerthoracic dorsal column of the spinal cord in 20 Wistar rats.AGC-injected spinal cords contained areas of fascicular demyelinationadjacent to the focus of axonal degeneration at the injectionsite. Somatosensory evoked potentials were recorded seriallyafter tibial nerve stimulation. In 85% of AGC-injected animals,the following characteristics were observed by 3 days afterinjection: (1) decreased amplitude of the cortically generatedpotential (P15); (2) failure of transmission of high-frequency(50 Hz) impulses (rate-dependent block); (3) delayed conductionvelocity of the compound action potentials through the lesion.None of these changes was seen in 90% of 20 rats injected withnormal saline or control rabbit sera. In 7 rats with acrylamide-inducedaxonopathy or wallerian degeneration, the rate-dependent blockwas not observed. The onset of clinical symptoms (hindlimb ataxia)in AGC-injected rats was best correlated with development ofthe rate-dependent block. Clinical recovery was observed by14 days after injection concurrent with restoration of P15 amplitude,when the rate-dependent block and decreased conduction velocitieswere unchanged. High-frequency-resistant conduction was re-establishedmuch later than clinical recovery in 3 rats. These findingssuggest that failure of high-frequency impulse transmissionmay produce clinical symptoms and that a central adaptive mechanismto remodulated trains of impulses plays a role in clinical recoveryfrom CNS demyelination.

Received March 3, 1987. Revised July 23, 1987. Accepted October 7, 1987.

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