ISSN:
1432-0878
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Medicine
Notes:
Summary Explants of embryonic and fetal spinal cords (rat, chick, and human) develop and maintain in vitro many cytologic and bioelectric properties characteristic of central nervous tissues in situ. Despite the thickness of the cord explants, a condition which appears to be necessary for differentiation, considerable neuronal development becomes visible to light microscopic examination. The mature expiant consists of large concentrations of small neurons interspersed with large neurons and neuroglia, bounded by a broad tract of nerve fibers and capped by a neuropil. Myelination in rat cultures usually begins 2–3 weeks after explantation in both the explant and outgrowth zone. Myelin is of the central glial type unless the cord explants are grown with their meningeal covering. In the latter case the myelination pattern abruptly changes to the peripheral Schwannian type as the axons penetrate the meninges. Bouton-like endings are observed in the neuropil of rat cord explants (whole-mounts) impregnated with silver; but most neurons are only partially blackened. In 20 μ sections, neuronal somas and dendrites are identified in negative image with blackened bouton-like endings suggesting synapses. Chick spinal cord, when grown in Rose chambers, becomes more thinly spread so that more detailed interrelationships can be visualized in the living neuronal somas, neuritic processes and termini. Bouton-like endings on neuronal somas have been selectively stained, vitally, with methylene blue. Complex bioelectric activity can be evoked in these long-term spinal cord explants by electric stimuli localized to various regions of the cord tissues as well as to attached dorsal-root ganglia. The long-lasting “after-discharge” patterns and the neuropharmacologic sensitivity of the responses show remarkable similarity to the activity of synaptic networks of the central nervous system in situ. These functions develop gradually during the first week after explantation of fetal rat cord tissues — more slowly in cultures explanted before the establishment of reflex arcs in utero, and more rapidly in cord explants from older fetuses. Reference is made to the companion electron microscopy study of older fetuses, which shows that characteristic synaptic structures, although extremely rare at the time of explantation, are abundant in later stages of the culture's development. This confirms the functional evidence that synapses are able to develop in organized culture conditions.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00339322
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