Decreased calcium currents in motor nerve terminals of mice with Lambert-Eaton myasthenic syndrome.

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J Physiol Vol 487, Issue Pt 1 pp 115-123
Copyright © 1995 by The Physiological Society

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Decreased calcium currents in motor nerve terminals of mice with Lambert-Eaton myasthenic syndrome.

D O Smith, M W Conklin, P J Jensen and W D Atchison

Department of Physiology, University of Wisconsin, Madison 53706, USA.

1. The effects of immunoglobulin G (IgG) from patients withLambert-Eaton myasthenic syndrome on Ca2+ currents in mammalianmotor nerve terminals are unknown. Therefore, we recorded thesecurrents in phrenic nerves of mice injected with serum fromeither LEMS patients, myasthenia gravis patients, or healthycontrol individuals. 2. In control preparations, the endplatecurrents induced by repetitive stimulation at > or = 20 Hzwere depressed as expected. However, in the LEMS animals quantalcontent decreased and either depression did not occur or synapticfacilitation occurred. 3. Ca2+ currents were smaller in LEMSanimals. At 0.5 Hz stimulation frequency, normalized Ca2+ currentsin LEMS animals were 57 +/- 14% of those in control. At higherfrequencies, Ca2+ currents become smaller in control but notin LEMS animals. 4. Ca2+ currents in controls were unaffectedby addition of nifedipine but were reduced by 37% upon additionof omega-conotoxin GVIA. In LEMS animals, however, the currentswere depressed by 43% by nifedipine but were unaffected by omega-conotoxinGVIA. Thus, LEMS is associated with reduced Ca2+ currents anda shift to dihydropyridine sensitivity.

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