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Motor and sensory innervation of muscle spindles in the neonatal rat

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Summary

Neural and muscular elements of three muscle spindles from the soleus muscles of 4-day-old rats were reconstructed by electron microscopy of skip-serial transverse ultrathin sections. Each spindle contained four encapsulated intrafusal fibers, including a minimum of one bag1, one bag2 and one chain fiber. The fibers were innervated by unmyelinated motor and sensory axons. The primary and secondary afferents approached the spindles as single axons and terminated on the central region of the intrafusal fibers. Single profiles of terminal axons occupied the sites of sensory neuromuscular junctions, similar to adult sensory endings. No morphological features suggested retraction of afferents from 4-day postnatal spindles. Motor axons approached spindles tightly packed in bundles of 5–20 axons and terminated in the juxtaequatorial and polar regions of both bag and chain fibers. Multiple profiles of terminal axons were visible for each intrafusal motor ending. More motor axons innervated 4-day postnatal spindles and a greater number of axon terminals were visible in immature intrafusal motor endings than in adult spindles. The data suggest that postnatal maturation of motor innervation to intrafusal fibers involves the elimination of supernumerary motor nerve inputs. Synapse elimination in the development of the fusimotor system might represent a mechanism whereby individual γ axons adjust the number of spindles they innervate.

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References

  • Adal MN (1969) The fine structure of the sensory region of cat muscle spindles. J Ultrastruct Res 26:332–354

    Google Scholar 

  • Andrew BL, Leslie GC, Part NJ (1978) Some observations on the efferent innervation of rat soleus muscle spindles. Exp Brain Res 31:433–443

    Google Scholar 

  • Banks RW, Harker DW, Stacey MJ (1977) A study of mammalian intrafusal muscle fibers using a combined histochemical and ultrastructural technique. J Anat 123:783–796

    Google Scholar 

  • Banks RW, Barker D, Stacey MJ (1982) Form and distribution of sensory terminals in cat hindlimb muscle spindles. Philos Trans R Soc Lond (Biol) 299:329–364

    Google Scholar 

  • Bixby JL (1981) Ultrastructural observations on synapse elimination in neonatal rabbit skeletal muscle. J Neurocytol 10:81–100

    Google Scholar 

  • Boyd IA, Gladden MH, McWilliam PN, Ward J (1977) Control of dynamic and static nuclear bag fibers and nuclear chain fibers by γ and β axons in isolated cat muscle spindles. J Physiol (Lond) 265:133–160

    Google Scholar 

  • Boyd IA (1962) The structure and innervation of the nuclear bag muscle fiber system and the nuclear chain muscle fiber system in mammalian muscle spindles. Philos Trans R Soc Lond (Biol) 245:81–136

    Google Scholar 

  • Brown MC, Jansen JK, Van Essen DC (1976) Polyneural innervation of skeletal muscles in newborn rats and its elimination during maturation. J Physiol (Lond) 261:387–422

    Google Scholar 

  • Gregory JE, Proske U (1985) Responses of muscle receptors in the kitten. J Physiol (Lond) 366:27–45

    Google Scholar 

  • Korneliussen H, Jansen JKS (1976) Morphological aspects of the elimination of polyneural innervation of skeletal muscle fibers in newborn rats. J Neurocytol 5:591–604

    Google Scholar 

  • Kucera J (1985) Distribution of skeletofusimotor axons in lumbrical muscles of the monkey. Anat Embryol 173:95–104

    Google Scholar 

  • Kucera J, Dorovini-Zis K, Engel WK (1978) Histochemistry of rat intrafusal muscle fibers and their motor innervation. J Histochem Cytochem 26:971–988

    Google Scholar 

  • Kucera J, Walro JM (1986) Factors that determine the form of neuromuscular junctions of intrafusal fibers in the cat. Am J Anat 176:97–117

    Google Scholar 

  • Kucera J, Walro JM (1987a) Postnatal maturation of spindles in deafferented rat soleus muscles. Anat Embryol 176:449–461

    Google Scholar 

  • Kucera J, Walro JM (1987b) Heterogeneity of spindle units in the cat tenuissimus muscle. Am J Anat 178:269–278

    Google Scholar 

  • Landon DN (1972) The fine structure of equatorial regions of developing muscle spindles in the rat. J Neurocytol 1:189–210

    Google Scholar 

  • Milburn A (1973a) The early development of muscle spindles in the rat. J Cell Sci 12:175–195

    Google Scholar 

  • Milburn A (1973b) The development of the muscle spindle in the rat. Ph.D. Thesis, Durham University

  • Ovalle WK (1972) Motor nerve terminals on rat intrafusal muscle fibers, a correlated light and electron microscopic study. J Anat 111:239–253

    Google Scholar 

  • Redfern P (1970) Neuromusuclar transmission in newborn rats. J Physiol (Lond) 209:701–709

    Google Scholar 

  • Riley DA (1977) Multiple innervation of fiber types in the soleus muscles of postnatal rats. Exp Neurol 56:400–409

    Google Scholar 

  • Schiaffino S, Bormioli SP (1976) Morphogenesis of rat muscle spindles after nerve lesion during early postnatal development. J Neurocytol 5:319–336

    Google Scholar 

  • Sokal RR, Rohlf FJ (1969) Biometry. WH Freeman, (San Francisco), pp 387–402

    Google Scholar 

  • Stephens H, Kucera J (1987) Coated organelles in developing muscle spindles of the rat. Soukup T (ed) Mechanoreceptors-development, structure and function. Plenum Press (in press)

  • Thompson WJ (1986) Changes in the innervation of mammalian skeletal muscle fibers during postnatal development. Trends Neurosci 9:25–28

    Google Scholar 

  • Vejsada R, Hnik P, Payne R, Ujec E, Palecek J (1985) Muscle stretch receptor function in the neonatal rat. Boyd IA and Gladden MH (eds) The Muscle Spindle. Macmillan Press, pp 227–231

  • Walro JM, Kucera J (1985a) Motor innervation of intrafusal fibers in rat muscle spindles: Incomplete separation of dynamic and static systems. Am J Anat 173:55–68

    Google Scholar 

  • Walro JM, Kucera J (1985b) Rat muscle spindles deficient in elements of the static system. Neurosci Lett 59:303–307

    Google Scholar 

  • Walro JM, kucera J (1987) Sharing of sensory terminals between the dynamic bag1 and static bag2 fibers in the rat muscle spindle. Brain Res 425:311–318

    Google Scholar 

  • Zar JH (1984) Biostatistical analysis, 2nd edn. Prentice-Hall, Englewood Cliffs NJ, pp 162–205

    Google Scholar 

  • Zelena J (1957) The morphogenetic influence of innervation on the ontogenetic development of muscle spindles. J Embryol Exp Morphol 5:283–292

    Google Scholar 

  • Zelena J (1976) The role of sensory innervation in the development of mechanoreceptors. Prog Brain Res 43:49–64

    Google Scholar 

Download references

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Authors and Affiliations

  1. Department of Neurology, School of Medicine, Boston University, 80 East Concord Street, 02118, Boston, MA, USA

    Jan Kucera

  2. Department of Anatomy, College of Medicine, Northeastern Ohio Universities, 44272, Rootstown, OH, USA

    Jon M. Walro

  3. Deparment of Molecular Biology, Tufts University, 02111, Boston, MA, USA

    Judith Reichler

Authors
  1. Jan Kucera
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  2. Jon M. Walro
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  3. Judith Reichler
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Kucera, J., Walro, J.M. & Reichler, J. Motor and sensory innervation of muscle spindles in the neonatal rat. Anat Embryol 177, 427–436 (1988). https://doi.org/10.1007/BF00304740

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  • DOI: https://doi.org/10.1007/BF00304740

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