Summary
Complete series of silver-stained semithin transverse sections were used to reconstruct 177 nerve cells of rat lamina I. According to the three-dimensional shape of the perikarya and the number and orientation of primary dendritic trunks, lamina I cells formed four distinct groups: (1) Fusiform cells with long rostrocaudal axis and having 1–4 primary dendrites oriented rostrocaudally or ventrally, which were the most numerous (50%) and predominated in the lateral third of lamina I. (2) Flattened cells (12%) which were thin discs of angular contour, spread out parallel to the lamina dorsal border; they emitted thick lateral and medial, but no dorsal or ventral, primary dendrites, and were mainly located in the middle third. (3) Multipolar cells (20%) with polyhedric somata emitting 4–12 primary dendritic trunks in several directions, which were practically confined to the medial third of the lamina. (4) Prismatic, wedge-shaped cells (18%), partly situated or encased, in the white matter, emitting one dorsal interstitial dendrite and several transversely oriented dendrites, which were distributed throughout the whole dorsal border of lamina I, though more abundant in its lateral portion. A subpopulation of large cells was identified in all groups, except in the multipolar one. These four cell types may help establish a basic morphologic classification of the neuronal population of lamina I, and may explain the different appearances under which local cells have previously been described in preparations using different planes of section and varied staining methods.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Barber RP, Vaughn JE, Roberts E (1982) The cytoarchitecture of GABAergic neurons in rat spinal cord. Brain Res 238:305–328
Basbaum AI, Clanton CH, Fields HL (1978) Three bulbospinal pathways from the rostral medulla of the cat: an autoradiographic study of pain modulating systems. J Comp Neurol 178:209–224
Beal JA (1979) The ventral dendritic arbor of marginal (Lamina I) neurons in the adult primate spinal cord. Neurosci Lett 14:201–206
Beal JA, Bicknell HR (1981) Primary afferent distribution pattern in the marginal zone (Lamina I) of adult monkey and cat lumbosacral spinal cord. J Comp Neurol 202:255–263
Beal JA, Penny JE, Bicknell HR (1981) Structural diversity of marginal (Lamina I) neurons in the adult monkey (Macaca mulatta) lumbosacral spinal cord: a Golgi study. J Comp Neurol 202:237–254
Blackstad TW, Heimer L, Mugnaini E (1981) Experimental neuroanatomy. General approaches and laboratory procedures. In: Heimer L, Robards MJ (eds) Neuroanatomical Tract-tracing Methods Plenum Press, New York, pp 43–53
Carstens E, Trevino DL (1978) Laminar origins of spinothalamic projections in the cat as determined by the retrograde transport of horseradish peroxidase. J Comp Neurol 182:151–166
Cervero F, Iggo A, Ogawa H (1976) Nociceptor-driven dorsal horn neurones in the lumbar spinal cord of the cat. Pain 2:5–24
Cervero F, Iggo A, Molony V, Steedman WM (1980) Intracellular staining of neurones in the marginal zone and substantia gelatinosa rolandi of the spinal cord of the cat. J Physiol 305:66P-67P
Christensen BN, Perl ER (1970) Spinal neurons specifically excited by noxious or thermal stimuli: marginal zone of the dorsal horn. J Neurophysiol 33:293–307
Descarries L, Schröder JM (1968) Fixation du tissu nerveux par perfusion à grand débit. J Microscopie 7:281–286
Giesler Jr GJ, Menétrey D, Basbaum AI (1979) Differential origins of spinothalamic tract projections to medial and lateral thalamus in the rat. J Comp Neurol 184:107–126
Glazer EJ, Basbaum AI (1981) Immunohistochemical localization of leucine-enkephalin in the spinal cord of the cat: enkephalin-containing marginal neurons and pain modulation. J Comp Neurol 196:377–389
Gobel S (1978a) Golgi studies of the neurons in layer I of the dorsal horn of the medulla (Trigeminal nucleus caudalis). J Comp Neurol 180:375–393
Gobel S (1978b) Golgi studies of the neurons in layer II of the dorsal horn of the medulla (Trigeminal nucleus caudalis). J Comp Neurol 180:395–414
Goldblatt PJ, Trump BF (1965) The application of del Rio Hortega's silver method to eponembedded tissue. Stain Technol 40:105–115
Hunt SP, Kelly JS, Emson PC, Kimmel JR, Miller RJ, Wu J-Y (1981) An immunohistochemical study of neuronal populations containing neuropeptides or γ-aminobutyrate within the superficial layers of the rat dorsal horn. Neuroscience 6:1883–1898
Light AR, Perl ER (1979) Reexamination of the dorsal root projection to the spinal dorsal horn including observations on the differential termination of coarse and fine fibers. J Comp Neurol 186:117–132
Light AR, Trevino DL, Perl ER (1979) Morphological features of functionally defined neurons in the marginal zone and substantia gelatinosa of the spinal dorsal horn. J Comp Neurol 186:151–172
Price DD, Dubner R, Hu JW (1976) Trigeminothalamic neurons in nucleus caudalis responsive to tactile, thermal and nociceptive stimulation of the monkey's face. J Neurophysiol 39:936–953
Priestley JV, Somogyi P, Cuello AC (1982) Immunocytochemical localization of substance P in the spinal trigeminal nucleus of the rat: a light and electron microscopic study. J Comp Neurol 211:31–49
Ramón y Cajal S (1909) Histologie du Système Nerveux de l'Homme et des Vertébrés. Vol 1 Maloine Paris
Rexed B (1952) The cytoarchitectonic organization of the spinal cord in the cat. J Comp Neurol 96:415–495
Rexed B (1964) Some aspects of the cytoarchitectonics and synaptology of the spinal cord. In: Eccles JC, Schadé JP (eds) Prog in Brain Res vol 11. Organization of the spinal cord. Elsevier Publishing Company, New York, pp 58–92
Ribeiro-da-Silva A, Coimbra A (1980) Neuronal uptake of [3H] GABA and [3H] glycine in laminae I-III (substantia gelatinosa rolandi) of the rat spinal cord. An autoradiographic study. Brain Res 188:449–464
Ribeiro-da-Silva A, Coimbra A (1982) Two types of synaptic glomeruli and their distribution in laminae I-III of the rat spinal cord. J Comp Neurol 209:176–186
Scheibel ME, Scheibel AB (1968) Terminal axonal patterns in cat spinal cord. II. The dorsal horn. Brain Res 9:32–58
Schoenen J (1982) The dendritic organization of the human spinal cord: The dorsal horn. Neuroscience 7:2057–2087
Steiner TJ, Turner LM (1972) Cytoarchitecture of the rat spinal cord. J Physiol 222:123P-125P
Vanegas H, Holländer H, Distel H (1978) Early stages of uptake and transport of horseradishperoxidase by cortical structures, and its use for the study of local neurons and their processes. J Comp Neurol 177:193–212
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lima, D., Coimbra, A. The neuronal population of the marginal zone (lamina I) of the rat spinal cord. A study based on reconstructions of serially sectioned cells. Anat Embryol 167, 273–288 (1983). https://doi.org/10.1007/BF00298516
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00298516