In innervated adult skeletal muscles, the Golgi apparatus (GA) displays a set of remarkable features in comparison with embryonic myotubes. We have previously shown by immunocytochemical techniques, that in adult innervated fibers, the GA is no longer associated with all the nuclei, but appears to be concentrated mostly in the subneural domain under the nerve endings in chick (Jasmin, B. J., J. Cartaud, M. Bornens, and J.-P. Changeux. 1989. Proc. Natl. Acad. Sci. USA. 86:7218-7222) and rat (Jasmin, B. J., C. Antony, J.-P. Changeux, and J. Cartaud. 1995. Eur. J. Neurosci. 7:470-479). In addition to such compartmentalization, biochemical modifications take place that suggest a functional specialization of the subsynaptic GA. Here, we focused on the developmental regulation of the membrane traffic organization during the early steps of synaptogenesis in mouse diaphragm muscle. We investigated by immunofluorescence microscopy on cryosections, the distribution of selected subcompartments of the exocytic pathway, and also of a representative endocytic subcompartment with respect to the junctional or extrajunctional domains of developing myofibers. We show that throughout development the RER, the intermediate compartment, and the prelysosomal compartment (mannose 6-phosphate receptor-rich compartment) are homogeneously distributed along the fibers, irrespective of the subneural or extrajunctional domains. In contrast, at embryonic day E17, thus 2-3 d after the onset of innervation, most GA markers become restricted to the subneural domain. Interestingly, some Golgi markers (e.g., alpha-mannosidase II, TGN 38, present in the embryonic myotubes) are no longer detected in the innervated fiber even in the subsynaptic GA. These data show that in innervated muscle fibers, the distal part of the biosynthetic pathway, i.e., the GA, is remodeled selectively shortly after the onset of innervation. As a consequence, in the innervated fiber, the GA exists both as an evenly distributed organelle with basic functions, and as a highly differentiated subsynaptic organelle ensuring maturation and targeting of synaptic proteins. Finally, in the adult, denervation of a hemidiaphragm causes a burst of reexpression of all Golgi markers in extrasynaptic domains of the fibers, hence showing that the particular organization of the secretory pathway is placed under nerve control.
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15 August 1995
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August 15 1995
Developmental regulation of membrane traffic organization during synaptogenesis in mouse diaphragm muscle.
C Antony,
C Antony
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
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M Huchet,
M Huchet
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
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J P Changeux,
J P Changeux
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
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J Cartaud
J Cartaud
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
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C Antony
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
M Huchet
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
J P Changeux
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
J Cartaud
Département de Biologie Supramoléculaire et Cellulaire, Institut Jacques-Monod, Paris, France.
Online ISSN: 1540-8140
Print ISSN: 0021-9525
J Cell Biol (1995) 130 (4): 959–968.
Citation
C Antony, M Huchet, J P Changeux, J Cartaud; Developmental regulation of membrane traffic organization during synaptogenesis in mouse diaphragm muscle.. J Cell Biol 15 August 1995; 130 (4): 959–968. doi: https://doi.org/10.1083/jcb.130.4.959
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