This project aims to investigate the roles played by synapse elimination during the development of neuromuscular connections. Three aspects of this regressive process will be studied. The roles played by the coupling of developing muscle cells by gap junctions in the regulation of synapse elimination will be examined by analysis of the patterns of dye coupling of physiologically identified and injected cells. In particular, the types of coupling present and their relationship to the innervation of secondary myotubes will be investigated. The interaction of different elements of the neuronal cytoskeleton in the selective stabilization of neuromuscular synapses during the period of synapse elimination will be studied using immunohistochemical techniques. The appearance, interaction, and post-translational modification of different elements will be correlated with the attainment of the adult pattern of innervation. Finally, it will be determined whether synapse elimination in the very early postnatal period functions to refine the patterns of neuromuscular connectivity. Analysis of innervation patterns in animals in which synapse elimination has been prolonged by neonatal tenotomy will be used to determine whether synapse elimination actively corrects errors of neuromuscular connectivity. Synapse elimination is a common feature in the development of the nervous system, yet little is known about its functional role. By examination of two aspects of its cellular regulation and one function which it might perform, it is anticipated that new insights into the functional roles of this widespread regressive process will b$ made which will be applicable to many different areas of neuronal development. It is hoped that the results of these studies will also have general applicability to elucidating mechanisms of developmental disorders of the nervous system.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
2R01NS020545-04A1
Application #
3400931
Study Section
Neurology B Subcommittee 1 (NEUB)
Project Start
1985-07-01
Project End
1992-03-31
Budget Start
1989-04-01
Budget End
1990-03-31
Support Year
4
Fiscal Year
1989
Total Cost
Indirect Cost
Name
Emory University
Department
Type
Schools of Medicine
DUNS #
042250712
City
Atlanta
State
GA
Country
United States
Zip Code
30322
English, A W; Wolf, S L; Segal, R L (1993) Compartmentalization of muscles and their motor nuclei: the partitioning hypothesis. Phys Ther 73:857-67
Gatesy, S M; English, A W (1993) Evidence for compartmental identity in the development of the rat lateral gastrocnemius muscle. Dev Dyn 196:174-82
Roden, R L; Donahue, S P; Schwartz, G A et al. (1991) 200 kD neurofilament protein and synapse elimination in the rat soleus muscle. Synapse 9:239-43
Donahue, S P; English, A W; Roden, R L et al. (1991) Tenotomy delays both synapse elimination and myogenesis in rat lateral gastrocnemius. Neuroscience 42:275-82
English, A W (1990) Development of compartmentalized innervation of the rat gluteus maximus muscle. J Comp Neurol 301:104-13
Donahue, S P; English, A W (1989) Selective elimination of cross-compartmental innervation in rat lateral gastrocnemius muscle. J Neurosci 9:1621-7
English, A W; Weeks, O I (1989) Electromyographic cross-talk within a compartmentalized muscle of the cat. J Physiol 416:327-36
Donahue, S P; English, A W (1989) Use of formamide increases the number of detectable inputs to polyneuronally innervated mammalian skeletal muscle. J Neurosci Methods 28:239-44
Donahue, S P; Wood, J G; English, A W (1988) On the role of the 200-kDa neurofilament protein at the developing neuromuscular junction. Dev Biol 130:154-66
Donahue, S P; English, A W (1987) The role of synapse elimination in the establishment of neuromuscular compartments. Dev Biol 124:481-9