Skip to main content
SpringerLink
Log in

Somatotopic organization and columnar structure of vibrissae representation in the rat ventrobasal complex

  • Regular Papers
  • Published:
Experimental Brain Research Aims and scope Submit manuscript

Summary

The region of vibrissae representation in the ventrobasal complex (VB) of the rat was systematically mapped, based on receptive fields of many single neurons. Results showed that the ventralmost row of vibrissae projected to the rostral part of VB, that the dorsal-most row projected to the caudal part, and that the caudalmost vibrissae of each row projected to the most dorsolateral part of VB and more rostral vibrissae to the more ventromedial part. Further, it was revealed that the clusters of neurons receiving projections from any individual vibrissae formed corresponding columns extending from the anterodorsomedial to the posteroventrolateral direction, and that these columns piled up dorsoventrally and anteroposteriorly, with ventral ones shifted progressively medially. When cross sections of these columns were viewed on an oblique horizontal section of VB, a group of columns corresponding to each row lined up from the dorsolateral to the ventromedial direction with a rostral convexity, which means that the third or fourth vibrissa in each row projected most rostrally in that row. These results confirmed previous physiological mapping studies of vibrissal representation and are in good agreement with anatomical studies on barreloid structure in VB.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • Arvidsson J (1982) Somatotopic organization of vibrissae afferents in the trigeminal sensory nuclei of the rat studied by transganglionic transport of HRP. J Comp Neurol 211:84–92

    Google Scholar 

  • Belford GR, Killackey HP (1979a) Vibrissae representation in subcortical trigeminal centers of the neonatal rat. J Comp Neurol 183:305–322

    Google Scholar 

  • Belford GR, Killackey HP (1979b) The development of vibrissae representation in subcortical trigeminal centers of the neonatal rat. J Comp Neurol 188:63–74

    Google Scholar 

  • Belford GR, Killackey HP (1980) The sensitive period in the development of the trigeminal system of the neonatal rat. J Comp Neurol 193:335–350

    Google Scholar 

  • Durham D, Woolsey TA (1984) Effects of neonatal whisker lesions on mouse central trigeminal pathways. J Comp Neurol 223:424–447

    Google Scholar 

  • Erzurumlu RS, Bates CA, Killackey HP (1980) Differential organization of thalamic projection cells in the brain stem trigeminal complex of the rat. Brain Res 198:427–433

    Google Scholar 

  • Erzurumlu RS, Killackey HP (1983) Development of order in the rat trigeminal system. J Comp Neurol 213:365–380

    Google Scholar 

  • Hoogland PV, Welker E, Van der Loos H (1987) Organization of the projections from barrel cortex to thalamus in mice studied with Phaseolus vulgaris-leucoagglutinin and HRP. Exp Brain Res 68:73–87

    Google Scholar 

  • Ito M (1988) Response properties and topography of vibrissa-sensitive VPM neurons in the rat. J Neurophysiol 60:1181–1197

    Google Scholar 

  • Ivy GO, Killackey HP (1982) Ephemeral cellular segmentation in the thalamus of the neonatal rat. Dev Brain Res 2:1–17

    Google Scholar 

  • Jacquin MF, Mooney RD, Rhoades RW (1986) Morphology, response properties, and collateral projections of trigeminothalamic neurons in brainstem subnucleus interpolaris of rat. Exp Brain Res 61:457–468

    Google Scholar 

  • Land PW, Simons DJ (1985) Metabolic and structural correlates of the vibrissae representation in the thalamus of the adult rat. Neurosci Lett 60:319–324

    Google Scholar 

  • Ma PM, Woolsey TA (1984) Cytoarchitectonic correlates of the vibrissae in the medullary trigeminal complex of the mouse. Brain Res 306:374–379

    Google Scholar 

  • Nomura S, Mizuno N (1986) Histochemical demonstration of vibrissae-representing patchy patterns of cytochrome oxidase activity within the trigeminal sensory nuclei in the cat. Brain Res 380:167–171

    Google Scholar 

  • Nord SG (1968) Receptor field characteristics of single cells in the rat spinal trigeminal complex. Exp Neurol 21:236–243

    Google Scholar 

  • Paxinos G, Watson C (1982) The rat brain in stereotaxic coordinates. Academic Press, Sydney New York London

    Google Scholar 

  • Peschanski M (1984) Trigeminal afferents to the diencephalon in the rat. Neuroscience 12:465–487

    Google Scholar 

  • Rhoades RW, Belford GR, Killackey HP (1987) Receptive-field properties of rat ventral posterior medial neurons before and after selective kainic acid lesions of the trigeminal brain stem complex. J Neurophysiol 57:1577–1600

    Google Scholar 

  • Saporta S, Kruger L (1977) The organization of thalamocortical relay neurons in the rat ventrobasal complex studied by the retrograde transport of horseradish peroxidase. J Comp Neurol 174:187–208

    Google Scholar 

  • Shipley MT (1974) Response characteristics of single units in the rat's trigeminal nuclei to vibrissa displacements. J Neurophysiol 37:73–90

    Google Scholar 

  • Shosaku A (1985) A comparison of receptive field properties of vibrissa neurons between the rat thalamic reticular and ventrobasal nuclei. Brain Res 347:36–40

    Google Scholar 

  • Shosaku A (1986) Cross-correlation analysis of a recurrent inhibitory circuit in the rat thalamus. J Neurophysiol 55:1030–1043

    Google Scholar 

  • Simons DJ, Carvell GE (1989) Thalamocortical response transformation in the rat vibrissa/barrel system. J Neurophysiol 61:311–330

    Google Scholar 

  • Sugitani M (1979) Electrophysiological and sensory properties of the thalamic reticular neurones related to somatic sensation in rats. J Physiol (Lond) 290:79–95

    Google Scholar 

  • Sugitani M, Yano J, Sugai T, Ooyama H (1988) Separation of the ventrobasal complex into VPM and VPL in the rat: a mapping study based on receptive fields of single neurons. J Kanazawa Med Univ 13:322–327

    Google Scholar 

  • Sumitomo I, Iwama K (1987) Neuronal organization of rat thalamus for processing information of vibrissal movements. Brain Res 415:389–392

    Google Scholar 

  • Van der Loos H (1976) Barreloids in mouse somatosensory thalamus. Neurosci Lett 2:1–6

    Google Scholar 

  • Verley R, Onnen I (1981) Somatotopic organization of the tactile thalamus in normal adult and developing mice and in adult mice dewhiskered since birth. Exp Neurol 72:462–474

    Google Scholar 

  • Waite PME (1973a) Somatotopic organization of vibrissal responses in the ventro-basal complex of the rat thalamus. J Physiol (Lond) 228:527–540

    Google Scholar 

  • Waite PME (1973b) The responses of cells in the rat thalamus to mechanical movements of the whiskers. J Physiol 228:541–561

    Google Scholar 

  • Waite PME (1984) Rearrangement of neuronal responses in the trigeminal system of the rat following peripheral nerve section. J Physiol 352:425–445

    Google Scholar 

  • Woolsey TA, Anderson JR, Wann JR, Stanfield BB (1979) Effects of early vibrissae damage on neurons in the ventrobasal (VB) thalamus of the mouse. J Comp Neurol 184:363–380

    Google Scholar 

  • Woolsey TA, Van der Loos H (1970) The structural organization of layer IV in the somatosensory region (SI) of mouse cerebral cortex. Brain Res 17:205–242

    Google Scholar 

  • Woolston DC, LaLonde JR, Gibson JM (1982) Comparison of response properties of cerebellar- and thalamic-projecting interpolaris neurons. J Neurophysiol 48:160–173

    Google Scholar 

  • Yokota T, Matsumoto N (1983a) Somatotopic distribution of trigeminal nociceptive specific neurons within the caudal somatosensory thalamus of cat. Neurosci Lett 39:125–130

    Google Scholar 

  • Yokota T, Matsumoto N (1983b) Location and functional organization of trigeminal wide dynamic range neurons within the nucleus ventralis posteromedialis of the cat. Neurosci Lett 39:231–236

    Google Scholar 

  • Yokota T, Koyama N, Matsumoto N (1985) Somatotopic Distribution of trigeminal nociceptive neurons in ventrobasal complex of cat thalamus. J Neurophysiol 53:1387–1400

    Google Scholar 

  • Zucker E, Welker WI (1969) Coding of somatic sensory input by vibrissae neurons in the rat's trigeminal ganglion. Brain Res 12:138–156

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Department of Physiology, Kanazawa Medical University, Uchinada, 920-02, Ishikawa, Japan

    M. Sugitani, J. Yano, T. Sugai & H. Ooyama

Authors
  1. M. Sugitani
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. J. Yano
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. T. Sugai
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. H. Ooyama
    View author publications

    You can also search for this author in PubMed Google Scholar

Additional information

This paper is dedicated to the memory of a dear friend, Dr. I. Sumitomo, Professor of the Laboratory of Biological Science, Osaka Keizai University, who died in November 1989

Rights and permissions

Reprints and permissions

About this article

Cite this article

Sugitani, M., Yano, J., Sugai, T. et al. Somatotopic organization and columnar structure of vibrissae representation in the rat ventrobasal complex. Exp Brain Res 81, 346–352 (1990). https://doi.org/10.1007/BF00228125

Download citation

  • Received:

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00228125

Key words

Search

Navigation