Oligodendrocytes or their putative progenitors were the only cells found to be immunoreactive to polyclonal antisera against the enzyme 2′3′-cyclic nucleotide 3′-phosphodiesterase (CNP) in developing and mature brains of rats and mice, as visualized by light and electron microscopy. Prior to myelination (day 6), oligodendrocytes of the corpus callosum have reticular networks of CNP-containing filopodia, in addition to abundant CNP throughout the cytoplasm. Some glioblast-like cells of the subventricular zone are also immunoreactive to anti-CNP, suggesting that, as progenitors of oligodendroglia, they express this myelination-related protein as one of the earliest events in myelinogenesis. Following the commencement of myelination (day 15), many oligodendrocytes lose much of their lacelike network of fine projections, possessing, instead, larger CNP-filled processes that extend to myelin-bearing fibers. CNP was always found only in the cytoplasm-containing compartments of the cells and myelin sheaths; neither lamellae nor cellular membranes were immunostained. These data support our contention that CNP is not an intrinsic membrane protein, despite its strong interaction with membrane components when cells are disrupted. In mutant (mld) mice (day 25), the many distended and uncompacted oligodendroglial processes that invest axons with only a few turns of membrane contained cytoplasmic CNP, accounting for the elevated levels of CNP activity previously noted in tissue fractions.
The development of 5-hydroxytryptamine (5-HT) innervation in the spinal cord was studied from embryonic day 14 (E14) to adulthood. Sprague-Dawley rats were fixed by perfusion with 5% glutaraldehyde in cacodylate-sodium metabisulfite buffer, and vibratome sections were processed for immunocytochemistry with a 5-HT antiserum. For electron microscopy, the sections were flat-embedded in araldite, and thin sectioning was performed. 5-HT neurons caudally directed from raphe nuclei invade the spinal cord at E14 and reach the caudalmost levels by E16-E17. In longitudinal sections, axons are seen by E15, at cervical and upper thoracic levels, to invade the presumptive gray matter from the anterior and lateral funiculi. The invasion process occurred either by sharp angulation of the axon or by branching of a collateral. By E16, at thoracic level the anterior horn and the intermediolateral columns are profusely innervated by very thin, varicose fibers; synapses are seen at E17 and E18 using EM. 5-HT immunoreactive boutons are involved here. After birth, 5-HT innervation of these two areas evolves progressively from a diffuse network to a more restricted pattern, especially at the thoracic level for the intermediolateral column and at cervical and lumbar levels for the anterior horn. The adult pattern is reached by postnatal day 21 (P21). The growth of axons toward the dorsal horn becomes noticeable by E19 at all spinal levels, when fibers invade the neck of the horn from the lateral funiculus, and innervation proceeds diffusely until P5. At P7, thin fibers course dorsally and laterally along the border of the gray matter and ramify profusely in layers I and II. The adult pattern is also reached in the dorsal horn by P21. These results are discussed in relation to the postnatal maturation of motor and sensory circuits and to the development of transplanted raphe neurons in the rat spinal cord.
The ultrastructure of serotonergic projections to the dorsal horn of the rat spinal cord has been investigated, using a highly specific polyclonal antiserum. The highest concentrations of immunoreactive profiles were found in lamina I and the outer part of lamina II (IIo). Intermediate concentrations were found in laminae III and IV, while the inner part of lamina II (IIi) was almost devoid of immunoreactivity. Whereas 60% of the profiles show at least one varicosity studded with synaptic vesicles, only one-fifth of the latter contributes to classical synapses, the remaining profiles being devoid of a facing postsynaptic density. The results are compared with those in the literature and our own results relative to other regions of the cord. It is concluded that the pauci-synaptic projections to the dorsal horn could correspond to a diffuse influence of serotonin, the targets for which are determined by the corresponding serotonergic receptors.
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