An acetylcholinesterase-mediated density shift technique demonstrates that coated vesicles from chick myotubes may contain both newly synthesized acetylcholinesterase and acetylcholine receptors

Abstract

Coated vesicles isolated from 17 d chick embryo skeletal muscle contain acetylcholine receptors (AChRs) as shown by the presence of specific, latent binding sites for 125I-alpha bungarotoxin (125I-alpha-BTX). Since these coated vesicles also contain AChE (Benson et al., 1985), we hypothesized that a coated vesicle could carry both molecules: one an integral membrane protein, the other a secreted protein. An AChE-mediated density shift technique was used to obtain data that indicate that most isolated coated vesicles contain AChE and that some contain AChRs as well. Similar results were obtained with coated vesicles isolated from cultured chick embryo myotubes treated briefly with diisopropylfluorophosphate (DFP) to inactivate all preexisting AChE and allowed to synthesize AChE for 2 1/2 hr. These data are compatible with the hypothesis that both an integral plasma membrane protein, AChR, and a secretory protein, AChE, traverse the identical pathway after synthesis, as proposed by Rotundo and Fambrough (1980a). We suggest that coated vesicles are important intermediates in the exocytotic pathway, and that the large percentage of coated vesicles utilized for exocytotic transport can explain the rapid net increase in surface area achieved during myotube development. We also discuss the potential utility of the AChE-mediated density shift in studying the exocytotic and endocytotic pathways in other cell types, and possible pitfalls associated with its use.