Paper Report for: Bezakova_2001_J.Cell.Biol_153_1441
Reference
Title: Effects of purified recombinant neural and muscle agrin on skeletal muscle fibers in vivo Bezakova G, Helm JP, Francolini M, Lomo T Ref: Journal of Cell Biology, 153:1441, 2001 : PubMed
Aggregation of acetylcholine receptors (AChRs) in muscle fibers by nerve-derived agrin plays a key role in the formation of neuromuscular junctions. So far, the effects of agrin on muscle fibers have been studied in culture systems, transgenic animals, and in animals injected with agrin--cDNA constructs. We have applied purified recombinant chick neural and muscle agrin to rat soleus muscle in vivo and obtained the following results. Both neural and muscle agrin bind uniformly to the surface of innervated and denervated muscle fibers along their entire length. Neural agrin causes a dose-dependent appearance of AChR aggregates, which persist > or = 7 wk after a single application. Muscle agrin does not cluster AChRs and at 10 times the concentration of neural agrin does not reduce binding or AChR-aggregating activity of neural agrin. Electrical muscle activity affects the stability of agrin binding and the number, size, and spatial distribution of the neural agrin--induced AChR aggregates. Injected agrin is recovered from the muscles together with laminin and both proteins coimmunoprecipitate, indicating that agrin binds to laminin in vivo. Thus, the present approach provides a novel, simple, and efficient method for studying the effects of agrin on muscle under controlled conditions in vivo.
        
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Bezakova G, Helm JP, Francolini M, Lomo T (2001) Effects of purified recombinant neural and muscle agrin on skeletal muscle fibers in vivo Journal of Cell Biology153: 1441-52
Bezakova G, Helm JP, Francolini M, Lomo T (2001) Journal of Cell Biology153: 1441-52