Literature DB >> 11493710

Neural agrin controls acetylcholine receptor stability in skeletal muscle fibers.

G Bezakova1, I Rabben, I Sefland, G Fumagalli, T Lømo.   

Abstract

At mammalian neuromuscular junctions (NMJs), innervation induces and maintains the metabolic stability of acetylcholine receptors (AChRs). To explore whether neural agrin may cause similar receptor stabilization, we injected neural agrin cDNA of increasing transfection efficiencies into denervated adult rat soleus (SOL) muscles. As the efficiency increased, the amount of recombinant neural agrin expressed in the muscles also increased. This agrin aggregated AChRs on muscle fibers, whose half-life increased in a dose-dependent way from 1 to 10 days. Electrical muscle stimulation enhanced the stability of AChRs with short half-lives. Therefore, neural agrin can stabilize aggregated AChRs in a concentration- and activity-dependent way. However, there was no effect of stimulation on AChRs with a long half-life (10 days). Thus, at sufficiently high concentrations, neural agrin alone can stabilize AChRs to levels characteristic of innervated NMJs.

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Year:  2001        PMID: 11493710      PMCID: PMC55554          DOI: 10.1073/pnas.171539698

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  34 in total

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Authors:  S L Shyng; M M Salpeter
Journal:  J Neurosci       Date:  1990-12       Impact factor: 6.167

Review 2.  The agrin hypothesis.

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Authors:  G Fumagalli; S Balbi; A Cangiano; T Lømo
Journal:  Neuron       Date:  1990-04       Impact factor: 17.173

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Authors:  Z W Hall; J R Sanes
Journal:  Cell       Date:  1993-01       Impact factor: 41.582

5.  Cyclic AMP stabilizes the degradation of original junctional acetylcholine receptors in denervated muscle.

Authors:  S L Shyng; R Xu; M M Salpeter
Journal:  Neuron       Date:  1991-03       Impact factor: 17.173

6.  Immunological evidence for a change in subunits of the acetylcholine receptor in developing and denervated rat muscle.

Authors:  Y Gu; Z W Hall
Journal:  Neuron       Date:  1988-04       Impact factor: 17.173

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Authors:  F Rupp; D G Payan; C Magill-Solc; D M Cowan; R H Scheller
Journal:  Neuron       Date:  1991-05       Impact factor: 17.173

8.  Calcium influx and protein phosphorylation mediate the metabolic stabilization of synaptic acetylcholine receptors in muscle.

Authors:  P Caroni; S Rotzler; J C Britt; H R Brenner
Journal:  J Neurosci       Date:  1993-03       Impact factor: 6.167

9.  Agrin-like molecules at synaptic sites in normal, denervated, and damaged skeletal muscles.

Authors:  N E Reist; C Magill; U J McMahan
Journal:  J Cell Biol       Date:  1987-12       Impact factor: 10.539

10.  Degradation rates of acetylcholine receptors can be modified in the postjunctional plasma membrane of the vertebrate neuromuscular junction.

Authors:  M M Salpeter; D L Cooper; T Levitt-Gilmour
Journal:  J Cell Biol       Date:  1986-10       Impact factor: 10.539
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  21 in total

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Journal:  Mol Neurobiol       Date:  2006-10       Impact factor: 5.590

2.  Non-synaptic roles of acetylcholinesterase and agrin.

Authors:  Katarina Gros; Giulia Parato; Sergej Pirkmajer; Katarina Mis; Matej Podbregar; Zoran Grubic; Paola Lorenzon; Tomaz Mars
Journal:  J Mol Neurosci       Date:  2013-12-11       Impact factor: 3.444

3.  Recycling of acetylcholine receptors at ectopic postsynaptic clusters induced by exogenous agrin in living rats.

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4.  How age impairs the response of the neuromuscular junction to nerve transection and repair: An experimental study in rats.

Authors:  Peter J Apel; Timothy Alton; Casey Northam; Jianjun Ma; Michael Callahan; William E Sonntag; Zhongyu Li
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5.  LRP4 is critical for neuromuscular junction maintenance.

Authors:  Arnab Barik; Yisheng Lu; Anupama Sathyamurthy; Andrew Bowman; Chengyong Shen; Lei Li; Wen-cheng Xiong; Lin Mei
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Review 6.  WNTs tune up the neuromuscular junction.

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Journal:  Nat Rev Neurosci       Date:  2009-09       Impact factor: 34.870

7.  Costameric proteins in human skeletal muscle during muscular inactivity.

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Journal:  J Anat       Date:  2008-06-05       Impact factor: 2.610

8.  Identification of an agrin mutation that causes congenital myasthenia and affects synapse function.

Authors:  Caroline Huzé; Stéphanie Bauché; Pascale Richard; Frédéric Chevessier; Evelyne Goillot; Karen Gaudon; Asma Ben Ammar; Annie Chaboud; Isabelle Grosjean; Heba-Aude Lecuyer; Véronique Bernard; Andrée Rouche; Nektaria Alexandri; Thierry Kuntzer; Michel Fardeau; Emmanuel Fournier; Andrea Brancaccio; Markus A Rüegg; Jeanine Koenig; Bruno Eymard; Laurent Schaeffer; Daniel Hantaï
Journal:  Am J Hum Genet       Date:  2009-07-23       Impact factor: 11.025

9.  Induction of Anti-agrin Antibodies Causes Myasthenia Gravis in Mice.

Authors:  Min Yan; Ziyang Liu; Erkang Fei; Wenbing Chen; Xinsheng Lai; Bin Luo; Peng Chen; Hongyang Jing; Jin-Xiu Pan; Michael H Rivner; Wen-Cheng Xiong; Lin Mei
Journal:  Neuroscience       Date:  2018-01-13       Impact factor: 3.590

10.  Engineered agrin attenuates the severity of experimental autoimmune myasthenia gravis.

Authors:  Zhiguo Li; Minshu Li; Kristofer Wood; Steffan Hettwer; Suraj A Muley; Fu-Dong Shi; Qiang Liu; Shafeeq S Ladha
Journal:  Muscle Nerve       Date:  2018-01-08       Impact factor: 3.217
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