Abstract

This proposal requests support for a continuing program which will examine the development of the axon membrane in normal and pathological nerve fibers, and the relationship of axon membrane differentiation to glial association and myelination. Over the past two years, our studies have led to progress in the following areas: i) physiology of developing CNS myelinated fibers; ii) axon membrane ultrastructure of developing central myelinated fibers; iii) axonal and axolemmal development in a glial deficient environment; iv) axo-glial relationships during myelination ; v) physiology of regenerating axons; vi) physiology of demyelinated fibers; vii) physiological differentiation of motor and sensory axons; viii) conduction properties of inhomogeneous fibers. One of the major results of these studies is the demonstration of a structural reorganization of the axon membrane during the development of myelinated fibers. To date, the relationship between this axon membrane differentiation and axo-glial association has remained incompletely studied. We now plan to examine the differentiation of the axon membrane, and the dependence of this differentiation on glial association, in developing optic nerve and spinal cord. These studies will utilize several complementary techniques (freeze-fracture, cytochemistry, electrophysiology, H3 saxitoxin binding) to examine axon membrane development both in normal axons, and in fibers which have developed in a glial cell deficient environment. We plan, in these studies, to examine the sequence of events in the differentiation of the axonal membrane of myelinated fibers, and to determine whether (and if so, with what time course and characteristics) nodal and internodal membrane can develop in response to delayed ensheathment with glial cells. We also plan to investigate the relationship between development of H3 STX binding, and freeze-fracture ultrastructure of the axolemma. These studies will provide information about the normal development of myelinated axons, and the characteristics of axons which are deprived of glial contact. We believe that these results will be relevant to understanding mechanisms of membrane plasticity which may be important in the demyelinating diseases.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
2R01NS015320-06
Application #
3396137
Study Section
Neurology B Subcommittee 1 (NEUB)
Project Start
1979-03-01
Project End
1986-08-31
Budget Start
1985-09-01
Budget End
1986-08-31
Support Year
6
Fiscal Year
1985
Total Cost
Indirect Cost

  Institution

Name
Stanford University
Department
Type
Schools of Medicine
DUNS #
800771545
City
Stanford
State
CA
Country
United States
Zip Code
94305

  Publications

Fields, R D; Black, J A; Waxman, S G (1987) Filipin-cholesterol binding in CNS axons prior to myelination: evidence for microheterogeneity in premyelinated axolemma. Brain Res 404:21-32
Black, J A; Waxman, S G; Sims, T J et al. (1986) Effects of delayed myelination by oligodendrocytes and Schwann cells on the macromolecular structure of axonal membrane in rat spinal cord. J Neurocytol 15:745-61
Black, J A; Waxman, S G (1986) Molecular structure of the axolemma of developing axons following altered gliogenesis in rat optic nerve. Dev Biol 115:301-12
Anderson, M J; Choy, C Y; Waxman, S G (1986) Self-organization of ependyma in regenerating teleost spinal cord: evidence from serial section reconstructions. J Embryol Exp Morphol 96:1-18
Anderson, M J; Fong, H L; Waxman, S G (1985) Retrograde labeling of regenerated electromotor neurons with HRP in a teleost fish, Sternarchus albifrons: relation to cell death. Cell Tissue Res 241:237-40
Hildebrand, C; Remahl, S; Waxman, S G (1985) Axo-glial relations in the retina-optic nerve junction of the adult rat: electron-microscopic observations. J Neurocytol 14:597-617
Sims, T J; Gilmore, S A; Waxman, S G et al. (1985) Dorsal-ventral differences in the glia limitans of the spinal cord: an ultrastructural study in developing normal and irradiated rats. J Neuropathol Exp Neurol 44:415-29
Ransom, B R; Yamate, C L; Black, J A et al. (1985) Rat optic nerve: disruption of gliogenesis with 5-azacytidine during early postnatal development. Brain Res 337:41-9
Waxman, S G; Black, J A (1985) Membrane structure of vesiculotubular complexes in developing axons in rat optic nerve: freeze-fracture evidence for sequential membrane assembly. Proc R Soc Lond B Biol Sci 225:357-63
Anderson, M J; Waxman, S G (1985) Neurogenesis in adult vertebrate spinal cord in situ and in vitro: a new model system. Ann N Y Acad Sci 457:213-33

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