Agrin triggers the clustering of raft-associated acetylcholine receptors through actin cytoskeleton reorganization.

Background Information: Cholesterol/sphingolipid-rich membrane microdomains or membrane rafts have been implicated in various aspects of receptor function such as activation, trafficking and synapse localization. More specifically in muscle, membrane rafts are involved in AChR (acetylcholine receptor) clustering triggered by the neural factor agrin, a mechanism considered integral to NMJ (neuromuscular junction) formation. In addition, actin polymerization is required for the formation and stabilization of AChR clusters in muscle fibres.

Rafts are required for acetylcholine receptor clustering.

Cholesterol-sphingolipid microdomains, or lipid rafts, are major regulators of molecular interactions in membrane organization. Because lipid rafts can move laterally and cluster into larger patches, they have been proposed to play a role in the redistribution of specific molecules to specialized cellular structures. Rafts have been shown to favor formation and maintenance of synaptic receptor clusters in neurons of the central nervous system.

Agrin elicits membrane lipid condensation at sites of acetylcholine receptor clusters in C2C12 myotubes.

The formation of the neuromuscular junction is characterized by the progressive accumulation of nicotinic acetylcholine receptors (AChRs) in the postsynaptic membrane facing the nerve terminal, induced predominantly through the agrin/muscle-specific kinase (MuSK) signaling cascade. However, the cellular mechanisms linking MuSK activation to AChR clustering are still poorly understood. Here, we investigate whether lipid rafts are involved in agrin-elicited AChR clustering in a mouse C2C12 cell line.