Effects of A23187 in cultures containing only rat Schwann cells and sensory neurons

Abstract

Serum from approximately 40% of patients with the acute Guillain-Barrésyndrome (GBS) selectively destroys myelin and myelin-related Schwann cells in cultures containing only rat dorsal root ganglion neurons and Schwann cells. To determine if the effects of GBS serum on myelin and myelin-related Schwann cells could be mediated through elevations in the intracellular concentration of calcium ions, we compared the effects of cytotoxic serum to A23187, a divalent cation ionophore. Both myelin- and nonmyelin-related Schwann cells were killed along with neurons in the presence of A23187 and extracellular calcium ions. Myelin sheaths also underwent vesicular disruption. The ultrastructural appearance of myelin and myelin-related Schwann cell lysis caused by A23187 were essentially identical to damage produced by GBS serum. These observations suggest that GBS serum factors might damage myelin and myelin-related Schwann cells in culture by an increase in myelin-related Schwann cell permeability to extracellular calcium ions. In contrast, A23187 causes necrosis of Schwann cells and neurons as well as myelin lysis by a nonselective increase in membrane permeability to extracellular calcium ions.