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Volume 17, Number 16, Issue of August 15, 1997 pp. 6094-6104
Copyright ©1997 Society for Neuroscience

Detection of Functional Nicotinic Receptors Blocked by alpha -Bungarotoxin on PC12 Cells and Dependence of Their Expression on Post-Translational Events

Received March 20, 1997; revised May 16, 1997; accepted June 3, 1997.

Edward M. Blumenthal, William G. Conroy, Suzanne J. Romano, Paul D. Kassner, and Darwin K. Berg

Department of Biology, University of California, San Diego, La Jolla, California 92093

A major class of nicotinic receptors in the nervous system is one that binds alpha -bungarotoxin and contains the alpha 7 gene product. PC12 cells, frequently used to study nicotinic receptors, express the alpha 7 gene and have binding sites for the toxin, but previous attempts to elicit currents from the putative receptors have failed. Using whole-cell patch-clamp recording techniques and rapid application of agonist, we find a rapidly desensitizing acetylcholine-induced current in the cells that can be blocked by alpha -bungarotoxin. The current amplitude varies dramatically among three populations of PC12 cells but correlates well with the number of toxin-binding receptors. In contrast, the current shows no correlation with alpha 7 transcript; cells with high levels of alpha 7 mRNA can be negative for toxin binding and yet have other functional nicotinic receptors. Northern blot analysis and reverse transcription-PCR reveal no defects in alpha 7 RNA from the negative cells, and immunoblot analysis demonstrates that they contain full-length alpha 7 protein, although at reduced levels. Affinity purification of toxin-binding receptors from cells expressing them confirms that the receptors contain alpha 7 protein. Transfection experiments demonstrate that PC12 cells lacking native toxin-binding receptors are deficient at producing receptors from alpha 7 gene constructs, although the same cells can produce receptors from other transfected gene constructs. The results indicate that nicotinic receptors that bind alpha -bungarotoxin and contain alpha 7 subunits require additional gene products to facilitate assembly and stabilization of the receptors. PC12 cells offer a model system for identifying those gene products.

Key words: nicotinic; acetylcholine receptors; alpha -bungarotoxin; PC12 cells; alpha 7 gene product; alpha 7 subunits; neuronal




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