Abstract
The expression of acetylcholinesterase (AChE) in skeletal muscle is regulated by muscle activity; however, the underlying molecular mechanisms are incompletely understood. We show here that the expression of the synaptic collagen-tailed AChE form (ColQ-AChE) in quail muscle cultures can be regulated by muscle activity post-translationally. Inhibition of thiol oxidoreductase activity decreases expression of all active AChE forms. Likewise, primary quail myotubes transfected with protein disulfide isomerase (PDI) short hairpin RNAs showed a significant decrease of both the intracellular pool of all collagen-tailed AChE forms and cell surface AChE clusters. Conversely, overexpression of PDI, endoplasmic reticulum protein 72, or calnexin in muscle cells enhanced expression of all collagen-tailed AChE forms. Overexpression of PDI had the most dramatic effect with a 100% increase in the intracellular ColQ-AChE pool and cell surface enzyme activity. Moreover, the levels of PDI are regulated by muscle activity and correlate with the levels of ColQ-AChE and AChE tetramers. Finally, we demonstrate that PDI interacts directly with AChE intracellularly. These results show that collagen-tailed AChE form levels induced by muscle activity can be regulated by molecular chaperones and suggest that newly synthesized exportable proteins may compete for chaperone assistance during the folding process.
Highlights
AChE molecule consists of three catalytic AChE tetramers attached to a triple-helical collagen-like tail composed of three separate ColQ molecules
During quail muscle cultures (QMCs) development and as a function of muscle activity, we observed a lack of correlation between the levels of total AChE activity on the one hand and ColQ subunit mRNAs as well as the levels of ColQ-AChE activity expressed in QMCs on the other
The QMCs were treated with diisopropyl fluorophosphate (DFP), a membrane-permeable organophosphate that irreversibly blocks all cell-associated AChE activity
Summary
AChE molecule consists of three catalytic AChE tetramers attached to a triple-helical collagen-like tail composed of three separate ColQ molecules. Overexpression of PDI, endoplasmic reticulum protein 72 (Erp72), or calnexin in muscle cells enhances expression of all collagen-tailed AChE forms including the synaptic ColQ-AChE, with PDI having the most dramatic effect with a 100% increase in intracellular ColQAChE and cell surface enzyme activity.
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