Showing papers by "Jon Lindstrom published in 1972"

Appearance of Acetylcholine Receptors During Differentiation of a Myogenic Cell Line

Abstract: Acquisition of acetylcholine receptors during differentiation of a clonal myoblast cell line was monitored with a neurotoxin isolated from venom of the Indian Cobra Naja naja. Toxin bound specifically and reversibly to acetylcholine receptors of the differentiated cells. Specificity of the binding reaction was assayed by measurement of the ability of various cholinergic agonists and antagonists to compete with neurotoxin for its binding site. The rate of toxin binding paralleled the rate of inactivation of functional acetylcholine receptors, as measured by iontophoretic application of acetylcholine. Bound toxin was released from the cells with a half-life of about 7 hr. This release was not associated with a decrease in the total number of toxin-binding sites. A slow hyperpolarizing response to acetylcholine seen in myoblasts was insensitive to toxin; the appearance of toxin-binding sites parallels the appearance of fused fibers during differentiation of the muscle cells in tissue culture.

Study of frog sartorius muscle acetylcholine receptor using the irreversible inhibitor TDF.

Abstract: The response of normal and denervated frog sartorius muscles to several agonists differing in intrinsic activity was studied using the fluid electrode technique. The response to carbamylcholine could be irreversibly blocked by exposure of the muscles top-trimethylammoniumbenzenediazonium difluoroborate (TDF), but the response could be protected from blockage by agonists and antagonists indicating that both TDF and these ligands act at the acetylcholine binding site of the receptor. It is shown that specific reversible binding of the trimethylammonium group of TDF to the receptor plays little or no role in the irreversible reaction of TDF with the receptor, which accounts for the extremely low specificity of its reaction with the receptor.