nach oben

Experimental Brain Research

Erschienen in:

01.07.2005 | Research Article

Otolith organ or semicircular canal stimulation induces c-fos expression in unipolar brush cells and granule cells of cat and squirrel monkey

verfasst von: Gabriella Sekerková, Ema Ilijic, Enrico Mugnaini, James F. Baker

Erschienen in: Experimental Brain Research | Ausgabe 3/2005

Einloggen, um Zugang zu erhalten

Abstract

Immediate early gene expression in the cerebellar vermis of cats and squirrel monkeys was stimulated by prolonged whole body rotations. Continuous, earth-horizontal axis rotations that excited only otoliths or high velocity vertical axis rotations that excited only semicircular canals resulted in c-fos immunoreactive nuclei concentrated in the granular layer of lobules X and ventral IX (the nodulus and ventral uvula), which represent the medial parts of the vestibulo-cerebellum. Large clusters of labeled nuclei consisting mainly of granule cells and calretinin-positive unipolar brush cells were present in the granular layer, whereas Purkinje cell nuclei were unlabeled, and labeled basket and stellate cell nuclei were scattered in the molecular layer. In other vermal lobules there was a significant but less dense label than in the nodulus and ventral uvula. Generally, the extent of c-fos labeling of molecular layer interneurons was in relation to nuclear labeling of granular layer neurons: labeling of both basket and stellate cells accompanied nuclear labeling of neurons throughout the depth of the granular layer, whereas only stellate cells were labeled when nuclear labeling was restricted to the superficial granular layer. Yaw horizontal or roll vertical rotations each stimulated c-fos expression in the cat medial vestibulo-cerebellum to approximately the same extent. Low-velocity rotations resulted in much less c-fos expression. Similar, albeit less intense, patterns of c-fos activation were observed in monkeys. Concentrated c-fos expression in the medial vestibulo-cerebellum after exposure to a strong head velocity signal that could originate from either otolith or canal excitation suggests that granule and unipolar brush cells participate in a neuronal network for estimating head velocity, irrespective of the signal source.

Altman J, Bayer SA (1997) Development of the cerebellar system: in relation to its evolution, structure, and functions. CRC Press, Boca Raton

Angelaki DE (1992) Two-dimensional coding of linear acceleration and the angular velocity sensitivity of the otolith system. Biol Cybern 67:511–521PubMed

Angelaki DE, Hess BJ (1995a) Inertial representation of angular motion in the vestibular system of rhesus monkeys. II. Otolith-controlled transformation that depends on an intact cerebellar nodulus. J Neurophysiol 73:1729–1751PubMed

Angelaki DE, Hess BJ (1995b) Lesion of the nodulus and ventral uvula abolish steady-state off-vertical axis otolith response. J Neurophysiol 73:1716–1720PubMed

Balaban CD (2004) Projections from the parabrachial nucleus to the vestibular nuclei: potential substrates for autonomic and limbic influences on vestibular responses. Brain Res 996:126–137CrossRefPubMed

Balaban CD, Beryozkin G (1994) Vestibular nucleus projections to nucleus tractus solitarius and the dorsal motor nucleus of the vagus nerve: potential substrates for vestibulo-autonomic interactions. Exp Brain Res 98:200–212CrossRefPubMed

Barmack NH (2003) Central vestibular system: vestibular nuclei and posterior cerebellum. Brain Res Bull 60:511–541CrossRefPubMed

Barmack NH, Baughman RW, Eckenstein FP, Shojaku H (1992) Secondary vestibular cholinergic projection to the cerebellum of rabbit and rat as revealed by choline acetyltransferase immunohistochemistry, retrograde and orthograde tracers. J Comp Neurol 317:250–270CrossRefPubMed

Barmack NH, Baughman RW, Errico P, Shojaku H (1993) Vestibular primary afferent projection to the cerebellum of the rabbit. J Comp Neurol 327:521–534CrossRefPubMed

Bastianelli E (2003) Distribution of calcium-binding proteins in the cerebellum. Cerebellum 2:242–262CrossRefPubMed

Beitz AJ, Saxon D (2004) Harmaline-induced climbing fiber activation causes amino acid and peptide release in the rodent cerebellar cortex and a unique temporal pattern of Fos expression in the olivo-cerebellar pathway. J Neurocytol 33:49–74CrossRefPubMed

Bower JM (2002) The organization of cerebellar cortical circuitry revisited: implications for function. Ann N Y Acad Sci 987:135–155

Carter AG, Regehr WG (2002) Quantal events shape cerebellar interneuron firing. Nat Neurosci 5:1309–1318CrossRefPubMed

Cohen B, Matsuo V, Raphan T (1977) Quantitative analysis of the velocity characteristics of optokinetic nystagmus and optokinetic after-nystagmus. J Physiol 270:321–344PubMed

Cohen B, Suzuki JI, Raphan T (1983) Role of the otolith organs in generation of horizontal nystagmus: effects of selective labyrinthine lesions. Brain Res 276:159–164CrossRefPubMed

Cohen B, Wearne S, Dai M, Raphan T (1999) Spatial orientation of the angular vestibulo-ocular reflex. J Vestib Res 9:163–172PubMed

Curthoys IS, Blanks RH, Markham CH (1977) Semicircular canal functional anatomy in cat, guinea pig and man. Acta Otolaryngol 83:258–265PubMed

Dai MJ, Raphan T, Cohen B (1991) Spatial orientation of the vestibular system: dependence of optokinetic after-nystagmus on gravity. J Neurophysiol 66:1422–1439PubMed

D’Ascanio P, Arrighi P, Pompeiano O (1998) Fos-protein expression in noradrenergic locus coeruleus neurons after unilateral labyrinthectomy in the rat. Arch Ital Biol 136:83–102PubMed

Diño MR, Willard FH, Mugnaini E (1999) Distribution of unipolar brush cells and other calretinin immunoreactive components in the mammalian cerebellar cortex. J Neurocytol 28:99–123CrossRefPubMed

Diño MR, Schuerger RJ, Liu Y, Slater NT, Mugnaini E (2000) Unipolar brush cell: a potential feedforward excitatory interneuron of the cerebellum. Neuroscience 98:625–636CrossRefPubMed

Diño MR, Perachio AA, Mugnaini E (2001) Cerebellar unipolar brush cells are targets of primary vestibular afferents: an experimental study in the gerbil. Exp Brain Res 140:162–170CrossRefPubMed

Eccles JC, Ito M, Szentágothai J (1967) The cerebellum as a neuronal machine. Springer, Berlin Heidelberg New York

Farivar R, Zangenehpour S, Chaudhuri A (2004) Cellular-resolution activity mapping of the brain using immediate-early gene expression. Front Biosci 9:104–109PubMed

Fernandez C, Goldberg JM (1971) Physiology of peripheral neurons innervating semicircular canals of the squirrel monkey. II. Response to sinusoidal stimulation and dynamics of peripheral vestibular system. J Neurophysiol 34:661–675PubMed

Floris A, Diño M, Jacobowitz DM, Mugnaini E (1994) The unipolar brush cells of the rat cerebellar cortex and cochlear nucleus are calretinin-positive: a study by light and electron microscopic immunocytochemistry. Anat Embryol (Berl) 189:495–520

Geurts FJ, Timmermans J, Shigemoto R, De Schutter E (2001) Morphological and neurochemical differentiation of large granular layer interneurons in the adult rat cerebellum. Neuroscience 104:499–512CrossRefPubMed

Geurts FJ, De Schutter E, Dieudonne S (2003) Unraveling the cerebellar cortex: cytology and cellular physiology of large-sized interneurons in the granular layer. Cerebellum 2:290–299CrossRefPubMed

Goldberg JM, Fernandez C (1981) Physiological mechanisms of the nystagmus produced by rotations about an earth-horizontal axis. Ann N Y Acad Sci 374:40–43PubMed

Goldberg JM, Fernandez C (1982) Eye movements and vestibular-nerve responses produced in the squirrel monkey by rotations about an earth-horizontal axis. Exp Brain Res 46:393–402CrossRefPubMed

Guedry FE Jr (1965) Orientation of the rotation-axis relative to gravity: its influence on nystagmus and the sensation of rotation. Acta Otolaryngol 60:30–48PubMed

Hain TC (1986) A model of the nystagmus induced by off vertical axis rotation. Biol Cybern 54:337–350CrossRefPubMed

Hausser M, Clark BA (1997) Tonic synaptic inhibition modulates neuronal output pattern and spatiotemporal synaptic integration. Neuron 19:665–678CrossRefPubMed

Henry RT, Connor JD, Balaban CD (1989) Nodulus-uvula depressor response: central GABA-mediated inhibition of alpha-adrenergic outflow. Am J Physiol 256:H1601–1608PubMed

Herdegen T, Waetzig V (2001) AP-1 proteins in the adult brain: facts and fiction about effectors of neuroprotection and neurodegeneration. Oncogene 20:2424–2437CrossRefPubMed

Hockfield S (1987) A Mab to a unique cerebellar neuron generated by immunosuppression and rapid immunization. Science 237:67–70PubMed

Houk JC, Buckingham JT, Barto AG (1996) Models of the cerebellum and motor learning. Behav Brain Sci 19:368–383

Illing RB, Michler SA, Kraus KS, Laszig R (2002) Transcription factor modulation and expression in the rat auditory brainstem following electrical intracochlear stimulation. Exp Neurol 175:226–244CrossRefPubMed

Ito M (1984) The cerebellum and neural control. Raven Press, New York

Jaarsma D, Diño MR, Cozzari C, Mugnaini E (1996) Cerebellar choline acetyltransferase positive mossy fibres and their granule and unipolar brush cell targets: a model for central cholinergic nicotinic neurotransmission. J Neurocytol 25:829–842PubMed

Judge SJ, Richmond BJ, Chu FC (1980) Implantation of magnetic search coils for measurement of eye position: an improved method. Vision Res 20:535–538CrossRefPubMed

Kaufman GD, Perachio AA (2000) Immediate early gene expression in the vestibular system. In: Beitz AJ, Anderson JH (eds) Neurochemistry of the vestibular system. CRC Press, Boca Raton, pp 365–377

Kaufman GD, Mustari MJ, Miselis RR, Perachio AA (1996) Transneuronal pathways to the vestibulocerebellum. J Comp Neurol 370:501–523CrossRefPubMed

Kevetter GA, Leonard RB, Newlands SD, Perachio AA (2004) Central distribution of vestibular afferents that innervate the anterior or lateral semicircular canal in the mongolian gerbil. J Vestib Res 14:1–15PubMed

Killian JE, Baker JF (2002) Horizontal vestibuloocular reflex (VOR) head velocity estimation in Purkinje cell degeneration (pcd/pcd) mutant mice. J Neurophysiol 87:1159–1164PubMed

Kim MS, Kim JH, Jin YZ, Kry D, Park BR (2002) Temporal changes of cFos-like protein expression in medial vestibular nuclei following arsanilate-induced unilateral labyrinthectomy in rats. Neurosci Lett 319:9–12CrossRefPubMed

Kitahara T, Nakagawa A, Fukushima M, Horii A, Takeda N, Kubo T (2002) Changes in fos expression in the rat brainstem after bilateral labyrinthectomy. Acta Otolaryngol 122:620–626CrossRefPubMed

Komuro H, Rakic P (1998) Distinct modes of neuronal migration in different domains of developing cerebellar cortex. J Neurosci 18:1478–1490PubMed

Korte GE, Mugnaini E (1979) The cerebellar projection of the vestibular nerve in the cat. J Comp Neurol 184:265–277CrossRefPubMed

Lainè J, Axelrad H (2002) Extending the cerebellar Lugaro cell class. Neuroscience 115:363–374CrossRefPubMed

Miller AD, Wilson VJ (1983) Vestibular-induced vomiting after vestibulocerebellar lesions. Brain Behav Evol 23:26–31PubMed

Mugnaini E (1972) The histology and cytology of the cerebellar cortex. In: Larsell O, Jansen J (eds) The comparative anatomy and histology of the cerebellum: the human cerebellum, cerebellar connections, and cerebellar cortex. University of Minnesota Press, Minnesota, pp 201–251

Mugnaini E, Floris A (1994) The unipolar brush cell: a neglected neuron of the mammalian cerebellar cortex. J Comp Neurol 339:174–180CrossRefPubMed

Mugnaini E, Berrebi AS, Morgan JI, Curran T (1989) Fos-like immunoreactivity induced by seizure in mice is specifically associated with euchromatin in neurons. Eur J Neurosci 1:46–52PubMed

Mugnaini E, Sekerková G, Baker JF (2000) Unipolar brush cells may contribute to cerebellar estimation of head velocity. Soc Neurosci Abstr 26:255.253

Neki A, Ohishi H, Kaneko T, Shigemoto R, Nakanishi S, Mizuno N (1996) Metabotropic glutamate receptors mGluR2 and mGluR5 are expressed in two non-overlapping populations of Golgi cells in the rat cerebellum. Neuroscience 75:815–826CrossRefPubMed

Newlands SD, Perachio AA (2003) Central projections of the vestibular nerve: a review and single fiber study in the Mongolian gerbil. Brain Res Bull 60:475–495CrossRefPubMed

Newlands SD, Vrabec JT, Purcell IM, Stewart CM, Zimmerman BE, Perachio AA (2003) Central projections of the saccular and utricular nerves in macaques. J Comp Neurol 466:31–47CrossRefPubMed

Nunzi MG, Mugnaini E (2000) Unipolar brush cell axons form a large system of intrinsic mossy fibers in the postnatal vestibulocerebellum. J Comp Neurol 422:55–65CrossRefPubMed

Nunzi MG, Shigemoto R, Mugnaini E (2002) Differential expression of calretinin and metabotropic glutamate receptor mGluR1alpha defines subsets of unipolar brush cells in mouse cerebellum. J Comp Neurol 451:189–199CrossRefPubMed

Nunzi MG, Russo M, Mugnaini E (2003) Vesicular glutamate transporters VGLUT1 and VGLUT2 define two subsets of unipolar brush cells in organotypic cultures of mouse vestibulocerebellum. Neuroscience 122:359–371CrossRefPubMed

Ordway JM, Williams K, Curran T (2004) Transcription repression in oncogenic transformation: common targets of epigenetic repression in cells transformed by Fos, Ras or Dnmt1. Oncogene 23:3737–3748CrossRefPubMed

Ramón y Cajal S (1995) Histology of the nervous system of men and vertebrates. (Translated from french edition by N. Swanson and L.W. Swanson. French edition translated from spanish by L. Azoulay). Oxford University Press, New York

Raphan T, Schnabolk C (1988) Modeling slow phase velocity generation during off-vertical axis rotation. Ann N Y Acad Sci 545:29–50PubMed

Raphan T, Matsuo V, Cohen B (1979) Velocity storage in the vestibulo-ocular reflex arc (VOR). Exp Brain Res 35:229–248CrossRefPubMed

Raphan T, Cohen B, Henn V (1981) Effects of gravity on rotatory nystagmus in monkeys. Ann N Y Acad Sci 374:44–55PubMed

Rossi DJ, Alford S, Mugnaini E, Slater NT (1995) Properties of transmission at a giant glutamatergic synapse in cerebellum: the mossy fiber-unipolar brush cell synapse. J Neurophysiol 74:24–42PubMed

Sagar SM, Sharp FR, Curran T (1988) Expression of c-fos protein in brain: metabolic mapping at the cellular level. Science 240:1328–1331PubMed

Sahin M, Hockfield S (1990) Molecular identification of the Lugaro cell in the cat cerebellar cortex. J Comp Neurol 301:575–584CrossRefPubMed

Saxon DW, White G (2004) Episodic blockade of cranial nerve VIII provokes asymmetric changes in lobule X of the rat. Brain Res 997:165–175CrossRefPubMed

Sekerková G, Ilijic E, Mugnaini E (2004) Time of origin of unipolar brush cells in the rat cerebellum as observed by prenatal bromodeoxyuridine labeling. Neuroscience 127:845–858CrossRefPubMed

Slater NT, Rossi DJ, Kinney GA (1997) Physiology of transmission at a giant glutamatergic synapse in cerebellum. Prog Brain Res 114:151–163PubMed

Slater NT, Rossi DJ, Jaarsma D, Mugnaini E (2000) Physiology and ultrastructure of unipolar brush cells in the vestibulocerebellum. In: Beitz AJ, Anderson JH (eds) Neurochemistry of the vestibular system. CRC Press, Boca Raton, pp 287–301

Sugihara I, Wu H, Shinoda Y (1999) Morphology of single olivocerebellar axons labeled with biotinylated dextran amine in the rat. J Comp Neurol 414:131–148CrossRefPubMed

Sumner BE, Cruise LA, Slattery DA, Hill DR, Shahid M, Henry B (2004) Testing the validity of c-fos expression profiling to aid the therapeutic classification of psychoactive drugs. Psychopharmacology (Berl) 171:306–321CrossRef

Waespe W, Cohen B, Raphan T (1985) Dynamic modification of the vestibulo-ocular reflex by the nodulus and uvula. Science 228:199–202PubMed

Wang SC, Chinn HI (1956) Experimental motion sickness in dogs; importance of labyrinth and vestibular cerebellum. Am J Physiol 185:617–623PubMed

Wearne S, Raphan T, Cohen B (1998) Control of spatial orientation of the angular vestibuloocular reflex by the nodulus and uvula. J Neurophysiol 79:2690–2715PubMed

Titel: Otolith organ or semicircular canal stimulation induces c-fos expression in unipolar brush cells and granule cells of cat and squirrel monkey
verfasst von: Gabriella Sekerková
Ema Ilijic
Enrico Mugnaini
James F. Baker
Publikationsdatum: 01.07.2005
Verlag: Springer-Verlag
Erschienen in: Experimental Brain Research / Ausgabe 3/2005
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI: https://doi.org/10.1007/s00221-005-2252-7

Leitlinien kompakt für die Neurologie

Mit medbee Pocketcards sicher entscheiden.

^{Seit 2022 gehört die medbee GmbH zum Springer Medizin Verlag}

Kostenlos registrieren

Neu im Fachgebiet Neurologie

Sozialer Aufstieg verringert Demenzgefahr

24.05.2024 Demenz Nachrichten

Ein hohes soziales Niveau ist mit die beste Versicherung gegen eine Demenz. Noch geringer ist das Demenzrisiko für Menschen, die sozial aufsteigen: Sie gewinnen fast zwei demenzfreie Lebensjahre. Umgekehrt steigt die Demenzgefahr beim sozialen Abstieg.

Hirnblutung unter DOAK und VKA ähnlich bedrohlich

17.05.2024 Direkte orale Antikoagulanzien Nachrichten

Kommt es zu einer nichttraumatischen Hirnblutung, spielt es keine große Rolle, ob die Betroffenen zuvor direkt wirksame orale Antikoagulanzien oder Marcumar bekommen haben: Die Prognose ist ähnlich schlecht.

Was nützt die Kraniektomie bei schwerer tiefer Hirnblutung?

17.05.2024 Hirnblutung Nachrichten

Eine Studie zum Nutzen der druckentlastenden Kraniektomie nach schwerer tiefer supratentorieller Hirnblutung deutet einen Nutzen der Operation an. Für überlebende Patienten ist das dennoch nur eine bedingt gute Nachricht.

Thrombektomie auch bei großen Infarkten von Vorteil

16.05.2024 Ischämischer Schlaganfall Nachrichten

Auch ein sehr ausgedehnter ischämischer Schlaganfall scheint an sich kein Grund zu sein, von einer mechanischen Thrombektomie abzusehen. Dafür spricht die LASTE-Studie, an der Patienten und Patientinnen mit einem ASPECTS von maximal 5 beteiligt waren.

Update Neurologie

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Live-Webinar "Urologie und Sexualmedizin in der Praxis"

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 3/2005

Orientation-specific fast rTMS maximizes corticospinal inhibition and facilitation

Localization of the human female breast in primary somatosensory cortex

Hand movement observation by individuals born without hands: phantom limb experience constrains visual limb perception

Trajectory of contact region on the fingerpad gives the illusion of haptic shape

Braking of elbow extension in fast overarm throws made by skilled and unskilled subjects