Summary
To better comprehend somatotopic development of the corticospinal projection system, wheat germ agglutinin conjugated to horseradish peroxidase (WGA-HRP) was injected into cervical or lumbar enlargement of the spinal cord of postnatal rats. The cervical projecting neurons appeared first in the middle of the lateral surface of the posterior frontal and anterior parietal cortex on the second postnatal day (postnatal day one, P1). By P3, labeled neurons were distributed in the rostral two-thirds of the cortex, with concentrations both on the same cortex as in P1 and on the dorsomedial part of the frontal cortex. Size of the labeled area was gradually reduced between P3 and P12 to attain an adult organization: three discrete clusters of labeled neurons were isolated in the dorsomedial part of the frontal cortex, the middle of the lateral surface of the posterior frontal and anterior parietal cortex, and in the temporal cortex. The lumbar projecting neurons first appeared in the dorsomedial part of the parietal cortex, on P4. Size of the lumbar projecting area increased by P6 and decreased by P12 to attain the pattern seen in adult animals.
Our findings suggest that 1) potential “pioneer fibers” reaching the cervical enlargement originate from the middle of the lateral surface of the posterior frontal and anterior parietal cortex, and those reaching the lumbar enlargement, from the dorsomedial part of the parietal cortex, and 2) transiently projecting areas consist of less densely distributed neurons compared to the areas destined to become the corticospinal projecting area in adult.
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References
Bates CA, Killackey HP (1984) The emergence of a discretely distributed pattern of corticospinal projection neurons. Dev Brain Res 13:265–273
Cowan WM, Fawcett JW, O'Leary DDM, Stanfield BB (1984) Regressive events in neurogenesis. Science 225:1258–1265
De Kort EJM, Gribnau AAM, van Aanholt HTH, Nieuwenhuys R (1985) On the development of the pyramidal tract in the rat. I. The morphology of the growth zone. Anat Embryol 172:195–204
Donatelle JM (1977) Growth of the corticospinal tract and the development of placing reactions in the postnatal rat. J Comp Neurol 175:207–232
Gribnau AAM, de Kort EJM, Dederen PJWC, Nieuwenhuys R (1986) On the development of the pyramidal tract in the rat. II. An anterograde tracer study of the outgrowth of the corticospinal fibers. Anat Embryol 175:101–110
Joosten EAJ, Gribnau AAM, Dederen PJWC (1987) An anterograde tracer study of the developing corticospinal tract in the rat: three components. Dev Brain Res 36:121–130
Leong SK (1983) Localizing the corticospinal neurons in neonatal, developing and mature albino rat. Brain Res 265:1–9
Matsuyama T, Kawamura S (1985) Cytoarchitectonic coincidence with the discontinuous connectional pattern in the deep layer of the superior colliculus in the rat. Neurosci Res 2:335–348
Mesulam MM (1978) Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: A non-carcinogenic blue reaction-product with superior sensitivity for visualizing neural afferents and efferents. J Histochem Cytochem 26:106–117
Miller MW (1987) The origin of corticospinal projection neurons in rat. Exp Brain Res 67:339–351
Neafsey EJ, Bold EL, Haas G, Hurley-Gius KM, Quirk G, Sievert CF, Terreberry RR (1986) The organization of the rat motor cortex: A microstimulation mapping study. Brain Res Rev 11:77–96
Obtani R, Shirai T (1988) The memorial proceedings of the 6th International Singer Symposium (in press)
Schreyer DJ, Jones EHG (1988) Topographical sequence of out-growth of corticospinal axons in the rat: a study using retrograde axonal labeling with Fast blue. Dev Brain Res 38:89–101
Stanfield BB, O'Leary DDM (1985) The transient corticospinal projection from the occipital cortex during the postnatal development of the rat. J Comp Neurol 238:236–248
Stanfield BB, O'Leary DDM, Fricks C (1982) Selective collateral elimination in early postnatal development restricts cortical distribution of rat pyramidal tract neurons. Nature 298:371–373
Wise SP, Fleshman Jr JW, Jones EG (1979) Maturation of pyramidal cell form in relation to developing afferent and efferent connections of rat somatic sensory cortex. Neuroscience 4:1275–1297
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Uozumi, T., Nakamura, H., Kawabuchi, M. et al. Patterns of maturation of somatotopical distribution of corticospinal neurons in postnatal rats. Anat Embryol 179, 19–24 (1988). https://doi.org/10.1007/BF00305096
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DOI: https://doi.org/10.1007/BF00305096