Summary
Horseradish peroxidase (HRP) was injected into the cerebellar flocculus of 20 cats to determine: (a) the proportions of afferents from the various brain stem nuclei; (b) possible projections from the basilar pontine nuclei; and (c) sources of saccadic eye movement signals recorded from flocculus Purkinje cells. Results confirm earlier findings that the flocculus receives large numbers of mossy fibre afferents from the vestibular and perihypoglossal nuclei, bilaterally, and climbing fibres from the contralateral inferior olive (dorsal cap, ventrolateral outgrowth, medial accessory olive, ventral bend of principal olive). In addition, large numbers of HRP-labeled neurons have been identified within: (i) the basilar pontine nuclei, bilaterally, where they are distributed in columns in the dorsolateral, lateral, ventral medial and dorsomedial nuclei; (ii) the nucleus reticularis tegmenti pontis; (iii) several of the cranial motor nuclei, VI, VII, X (retrofacial n.), XI (n. ambiguus), and XII; (iv) the raphe magnus, pontis and obscurus; (v) the lateral reticular nucleus, pars subtrigeminalis.
Finally, new information is presented which shows that large numbers of flocculus projecting neurons are located within the medial longitudinal fasciculus at two locations; one just rostral to the hypoglossal nucleus and another group extends 2–3 mm rostral to the abducens nucleus. These groups are bilateral, and have been termed, respectively, the caudal and intermediate interstitial nucleus of the medial longitudinal fasciculus. Both groups correspond in location to physiologically identified neurons in cat which fire in relation to saccadic eye movements. Their projection to the flocculus, in part, explains the saccadic discharge of Purkinje cells in the flocculus.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alley, K., Baker, R. &Simpson, J. I. (1975) Afferents to the vestibule-cerebellum and the origin of the visual climbing fibers in the rabbit.Brain Research 98, 582–9.
Altman, J. &Carpenter, M. B. (1961) Fiber projections of the superior colliculus in the cat.Journal of Comparative Neurology 116, 157–77.
Angaut, P. &Brodal, A. (1967) The projection of the ‘vestibulocerebellum’ onto the vestibular nuclei in the cat.Archives Italiennes de Biologie 105, 441–79.
Berman, A. L. (1968)The Brain Stem of the Cat. A Cytoarchitectonic Atlas with Stereotaxic Coordinates. Madison: University of Wisconsin Press.
Blanks, R. H. I. (1989) Cerebellum. InReviews of Oculomotor Research (series editors:Robinson, D. A. andCollewijn, H.: edited by BÜttner-Ennever, J.) Vol. 2, pp. 225–72. Amsterdam: Elsevier Biomedical Press.
Blanks, R. H. I. &Precht, W. (1983) Responses of units in the rat cerebellar flocculus during optokinetic and vestibular stimulation.Experimental Brain Research 53, 1–15.
Blanks, R. H. I. &Torigoe, Y. (1983) Two neuronal groups associated with the medial longitudinal fasciculus (MLF) of the cat and rat that convey vestibular impulses to the cerebellar flocculus.Society for Neuroscience Abstracts 9, 608.
Blanks, R. H. I., Precht, W. &Torigoe, Y. (1983) Afferent projections to the cerebellar flocculus in the pigmented rat demonstrated by retrograde transport of horseradish peroxidase.Experimental Brain Research 52, 293–306.
Brodal, A. (1940) Experimentelle Untersuchungen uber die olivo-cerebellare lokalisation.Zeitschrift für Neurologie und Psychiatrie 169, 1–153.
Brodal, A. (1943) The cerebellar connections of the nucleus reticularis lateralis (nucleus funiculi lateralis) in the rabbit and cat. Experimental investigations.Acta Psychiatrica et Neurologica Scandinavica 18, 171–233.
Brodal, A. (1952) Experimental demonstration of cerebellar connexions from the perihypoglossal nuclei (nucleus intercalatus, nucleus praepositus hypoglossi and nucleus of Roller) in the cat.Journal of Anatomy (London) 86, 110–20.
Brodal, A. &Brodal, P. (1971) The organization of the nucleus reticularis tegmenti pontis in the cat in the light of experimental anatomical studies of the cerebral cortical afferents.Experimental Brain Research 13, 90–110.
Brodal, A. &Brodal, P. (1985) Observations on the secondary vestibulocerebellar projections in the macaque monkey.Experimental Brain Research 58, 62–74.
Brodal, A. &Pompeiano, O. (1957) The vestibular nuclei in the cat.Journal of Anatomy (London) 91, 438–54.
Brodal, A. &Szikla, G. (1972) The termination of the brachium conjunctivum descendens in the nucleus reticularis tegmenti pontis. An experimental anatomical study in the cat.Brain Research 39, 337–51.
Brodal, P. (1980a) The cortical projection to the nucleus reticularis tegmenti pontis in the rhesus monkey.Experimental Brain Research 38, 19–27.
Brodal, P. (1980b) The projection from the nucleus reticularis tegmenti pontis to the cerebellum in the rhesus monkey.Experimental Brain Research 38, 29–36.
Brodal, P. (1982) Further observations on the cerebellar projections from the pontine nuclei and the nucleus reticularis tegmenti pontis in the Rhesus monkey.Journal of Comparative Neurology 204, 44–55.
Brodal, P. &Brodal, A. (1982) Further observations on the olivocerebellar projection in the monkey.Experimental Brain Research 45, 71–83.
Brodal, A. &Torvik, A. (1957) Über den Ursprung der sekundaren vestibulocerebellaren Fasern bei der Katze. Eine experimentell anatomische Studie.Archives of Psychiatry & Neurology 195, 550–67.
Chan-Palay, V. (1977)Cerebellar Dentate Nucleus: Organization, Cytology and Transmitters. Berlin, Heidelberg, New York: Springer-Verlag.
Cohen, B. &Henn, V. (1972) The origin of quick phases of nystagmus in the horizontal plane.Bibliotheca Ophthalmologica 82, 36–55.
Curthoys, I. S., Nakao, S. &Markham, C. H. (1981) Cat medial pontine reticular neurons related to vestibular nystagmus: firing pattern, location and projection.Brain Research 222, 75–94.
Deolmos, J., Hardy, H. &Heimer, L. (1978) The afferent connections of the main and the accessory olfactory bulb formations in the rat: an experimental HRP-study.Journal of Comparative Neurology 181, 213–44.
Gerrits, N. M. &Voogd, J. (1982) The climbing fiber projection to the flocculus and adjacent paraflocculus in the cat.Neuroscience 7, 2971–91.
Gerrits, N. M., Epema, A. H. &Voogd, J. (1984) The mossy fiber projection of the nucleus reticularis tegmenti pontis to the flocculus and adjacent ventral paraflocculus in the cat.Neuroscience 11, 627–44.
Gould, B. B. (1980) Organization of afferents from the brain stem nuclei to the cerebellar cortex in the cat.Advances in Anatomy, Embryology and Cell Biology 62, 1–90.
Graybiel, A. M. (1977) Direct and indirect preoculomotor pathways of the brain stem: an autoradiographic study of the pontine reticular formation in the cat.Journal of Comparative Neurology 175, 37–78.
Henn, V., Hepp, K. &Büttner-Ennever, J. A. (1982) The Primate oculomotor system. II. Premotor system. A synthesis of anatomical, physiological and clinical data.Human Neurobiology 1, 87–95.
Hoddevik, G. H. (1977) The pontine projection to the flocculonodular lobe and the paraflocculus studied by means of retrograde transport of horseradish peroxidase in the rabbit.Experimental Brain Research 30, 511–26.
Hoddevik, G. H. (1978) The projection from nucleus reticularis tegmenti pontis onto the cerebellum in the cat.Anatomy and Embryology 153, 227–42.
Hoddevik, G. H. &Brodal, A. (1977) The olivocerebellar projection studied with the method of retrograde axonal transport of horseradish peroxidase. V. The projections to the flocculonodular lobe and the paraflocculus in the rabbit.Journal of Comparative Neurology 176, 269–80.
Holstege, G. &Collewijn, H. (1982) The efferent connections of the nucleus of the optic tract and the superior colliculus in the rabbit.Journal of Comparative Neurology 209, 139–75.
Ito, M. (1982) Cerebellar control of the vestibulo-ocular reflex- around the flocculus hypothesis.Annual Review of Neuroscience 5, 275–96.
Kawasaki, T., Kato, I., Sato, Y. &Mizukoshi, K. (1982) The brain-stem projection to the cerebellar flocculus relevant to optokinetic responses in cat.Annals of the New York Academy of Science 374, 455–64.
Korte, G. E. &Mugnani, F. (1979) The cerebellar projection of the vestibular nerve in the cat.Journal of Comparative Neurology 184, 265–77.
Kotchabhakdi, N. &Walberg, F. (1978a) Primary vestibular afferent projections to the cerebellum as demonstrated by retrograde axonal transport of horseradish peroxidase.Brain Research 142, 142–6.
Kotchabhakdi, N. &Walberg, F. (1978b) Cerebellar afferent projections from the vestibular nuclei in the cat: an experimental study with the method of retrograde axonal transport of horseradish peroxidase.Experimental Brain Research 31, 591–604.
Ladpli, R. &Brodal, A. (1968) Experimental studies of commissural and reticular formation projections from the vestibular nuclei in the cat.Brain Research 8, 65–96.
Langer, T., Fuchs, A. F., Scudder, C. A., &Chubb, M. C. (1985a) Afferents to the flocculus of the cerebellum in the rhesus macaque as revealed by retrograde transport of horseradish peroxidase.Journal of Comparative Neurology 235, 1–25.
Langer, T., Fuchs, A. F., Chubb, M. C., Scudder, C. A. &Lisberger, S. G. (1985b) Floccular efferents in the rhesus macaque as revealed by autoradiography and horseradish peroxidase.Journal of Comparative Neurology 235, 26–37.
Larsell, O. (1970)The Comparative Anatomy and Histology of the Cerebellum from Monotremes through Apes, pp. 175–85. Minneapolis: University of Minnesota Press.
Leichnetz, G. R. (1982) Projections from para-arcuate frontal cortex to brainstem nuclei related with eye movement in the monkey: An HRP study.Anatomical Record 202, 217A.
Leichnetz, G. K., Smith, D. J. &Spencer, R. F. (1984) Cortical projections to the paramedian tegmental and basilar pons in the monkey.Journal of Comparative Neurology 228, 388–408.
Maekawa, K. &Kimura, M. (1980) Mossy fiber projections to the cerebellar flocculus from the extraocular muscle afferents.Brain Research 191, 313–25.
Maekawa, K. &Takeda, T. (1978) Origin of the mossy fiber projection to the cerebellar flocculus from the optic nerves in rabbit. InIntegrative Control Functions of the Brain (edited byIto, M., Tsukahara, N., Kubota, K. AndYagi, K.) Vol. 1, pp. 93–5. Tokyo: Kodansha Ltd., Amsterdam: Elsevier/North-Holland Biomedical Press.
Maekawa, K., Kimura, M. &Takeda, T. (1981a) Mossy fiber activation of the cerebellar flocculus from the visual system.Annals of the New York Academy of Science 374, 476–90.
Maekawa, K., Takeda, T. &Kimura, M. (1981b) Neural activity of nucleus reticularis tegmenti pontis. The origin of visual mossy fiber afferents to the cerebellar flocculus of rabbits.Brain Research 210, 17–30.
Miles, F. A. &Lisberger, S. G. (1981) Plasticity in the vestibulo-ocular reflex: a new hypothesis.Annual Reviews of Neuroscience 4, 273–99.
Mizuno, N., Mochizuki, K., Akimoto, C. &Matsushima, R. (1973) Pretectal projections to the inferior olive in the rabbit.Experimental Neurology 39, 498–506.
Nakao, S., Curthoys, I. S. &Markham, C. H. (1980) Eye movement related neurons in the cat pontine reticular formation: projection to the flocculus.Brain Research 180, 291–9.
Precht, W. &Strata, P. (1980) On the pathway mediating optokinetic responses in vestibular nuclear neurons.Neuroscience 5, 777–87.
Ricardo, J. A. (1981) Efferent connections of the subthalamic region in the rat. II. The zona incerta.Brain Research 214, 43–60.
Sato, Y., Kawasaki, T. &Ikarashi, K. (1983a) Afferent projections from the brainstem to the three floccular zones in cats. I. Climbing fiber projections.Brain Research 272, 27–36.
Sato, Y., Kawasaki, T. &Ikarashi, K. (1983b) Afferent projections from the brainstem to the three floccular zones in cats. II. Mossy fiber projections.Brain Research 272, 37–48.
Taber, E., Brodal, A. &Walberg, F. (1960) The raphe nuclei of the brainstem in the cat. I. Normal topography and cytoarchitecture and general discussion.Journal of Comparative Neurology 114, 161–88.
Taber-Pierce, E., Hoddevik, G. H. &Walberg, F. (1977) The cerebellar projection from the raphe nuclei in the cat as studied with the method of retrograde transport of horseradish peroxidase.Anatomy and Embryology 152, 73–87.
Torigoe, Y., Blanks, R. H. I. &Precht, W. (1986a) Anatomical studies on the nucleus reticularis tegmenti pontis in the pigmented rat. I. Cytoarchitecture, topography, and cerebral cortical afferents.Journal of Comparative Neurology 243, 71–87.
Voogd, J. &Bigare, F. (1980) Topographical distribution of olivary and corticonuclear fibers in the cerebellum: A review. InThe Inferior Olivary Nucleus: Anatomy and Physiology (edited byDe Montigny, C. C. andLamarre, Y.) pp. 207–34. New York: Raven Press.
Waespe, W. &Henn, V. (1981a) Visual-vestibular interaction in the flocculus of the alert monkey. I. Input activity.Experimental Brain Research 43, 337–48.
Waespe, W. &Henn, V. (1981b) Visual-vestibular interaction in the alert monkey. II. Purkinje cell activity.Experimental Brain Research 43, 349–60.
Walberg, F., Kotchabhakdi, N. &Hoddevik, G. H. (1979) The olivocerebellar projections to the flocculus and paraflocculus in the cat, compared to those in the rabbit. A study using horseradish peroxidase as a tracer.Brain Research 161, 389–98.
Walberg, F., Pompeiano, O., Brodal, A. & Jansen, J. (1962a) The fastigiovestibular projection in the cat. An experimental study with silver methods.Journal of Comparative Neurology 118, 49–75.
Walberg, F., Pompeiano, O., Westrum, L. E. &Haughlie-Hanssen, E. (1962b) Fastigioreticular fibers in the cat. An experimental study with silver.Journal of Comparative Neurology 119, 187–99.
Whitworth, R. H.Jr, Haines, D. E. &Patrick, G. W. (1983) The inferior olive of a prosimian primate,Galago senegalensis. II. Olivocerebellar projections to the vestibulocerebellum.Journal of Comparative Neurology 219, 228–40.
Yamamoto, M. (1979) Topographical representation in rabbit cerebellar flocculus for various afferent inputs from the brainstem investigated by means of retrograde axonal transport of horseradish peroxidase.Neuroscience Letters 12, 29–34.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Blanks, R.H.I. Afferents to the cerebellar flocculus in cat with special reference to pathways conveying vestibular, visual (optokinetic) and oculomotor signals. J Neurocytol 19, 628–642 (1990). https://doi.org/10.1007/BF01188032
Issue Date:
DOI: https://doi.org/10.1007/BF01188032