Inestrosa_1983_Exp.Cell.Res_147_393

Reference

Title : Developmental regulation of 16S acetylcholinesterase and acetylcholine receptors in a mouse muscle cell line - Inestrosa_1983_Exp.Cell.Res_147_393
Author(s) : Inestrosa NC , Miller JB , Silberstein L , Ziskind-Conhaim L , Hall ZW
Ref : Experimental Cell Research , 147 :393 , 1983
Abstract :

We have studied the appearance, distribution and regulation of acetylcholinesterase (AChE) and acetylcholine receptors (AChRs) in a mouse skeletal muscle cell line (C2), that was originally isolated and described by Yaffe & Saxel [54]. In culture, cells from this line form spontaneously contracting myotubes, with overshooting action potentials that are TTX-sensitive. After fusion of myoblasts into myotubes, there was a dramatic increase in the amount of both AChE and AChR. Three forms of AChE, distinguished by their sedimentation on sucrose gradients, were synthesized: 4-6S, 10S, and 16S. The 4-6S and 10S forms appeared 1 day after the cells began to fuse, whereas the 16S form appeared only 2 days after fusion began. Maximal levels of the 16S AChE form (25-30% of the total) were obtained by reducing the concentration of horse serum in the fusion medium. Prevention of myoblast fusion by reducing the calcium levels in the medium decreased the total AChE by 70%, and only the 4-6S form was synthesized. Blocking spontaneous contractile activity of the myotubes by tetrodotoxin (TTX) led to a 50% reduction in all three esterase forms. Thus, the 16S, or endplate form of AChE is not specifically regulated by electrical or contractile activity in the C2 cell line. After fusion the number of AChRs increased rapidly for 3-4 days and then stabilized. Receptor clusters, ranging from 10-30 micron in length, appeared 1 day after myoblast fusion began. When cells were grown in medium containing reduced Ca2+, the total number of AChRs was decreased by 20-50%. Reduction of Ca2+ after myotubes and AChR clusters had formed resulted in dispersal of AChR clusters. Inhibition of muscle contractions with TTX did not affect the number of AChRs or their distribution.

PubMedSearch : Inestrosa_1983_Exp.Cell.Res_147_393
PubMedID: 6617773

Related information

Citations formats

Inestrosa NC, Miller JB, Silberstein L, Ziskind-Conhaim L, Hall ZW (1983)
Developmental regulation of 16S acetylcholinesterase and acetylcholine receptors in a mouse muscle cell line
Experimental Cell Research 147 :393

Inestrosa NC, Miller JB, Silberstein L, Ziskind-Conhaim L, Hall ZW (1983)
Experimental Cell Research 147 :393