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Excitation of Cerebellar Purkinje Cells by the Climbing Fibres (1964)

ECCLES, JOHN ; LLINAS, R. ; SASAKI, K.

[s.l.] : Nature Publishing Group

Nature 203 (1964), S. 245-246

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] IN 1888 Cajal (ref. 1) discovered a most remarkable synaptic structure in which single afferent fibres were uniquely related to single Purkinje cells by synaptic contacts of extraordinary extent and intimacy. As illustrated in Fig. 1A, each so-called climbing fibre (CF) traverses the granular layer ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/203245a0

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2

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Golgi Cell Inhibition in the Cerebellar Cortex (1964)

ECCLES, JOHN ; LLINÁS, R. ; SASAKI, K.

[s.l.] : Nature Publishing Group

Nature 204 (1964), S. 1265-1266

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] THE Golgi cells or large stellate cells of the granular layer were first described by Camillo Golgi in 1886 (ref. 1). These cells are among the largest neurones in the cerebellar cortex, being second in size only to the Purkinje cells. As illustrated in Fig. 1A, the bodies of the Golgi cells are ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/2041265a0

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3

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The olivo-cerebellar system: Functional properties as revealed by harmaline-induced tremor (1973)

Llinás, R. ; Volkind, R. A.

Springer

Experimental brain research 18 (1973), S. 69-87

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ISSN: 1432-1106

Keywords: Climbing fiber ; Inferior olive ; Tremor ; Harmaline ; Cerebellar nuclei

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Intracellular recording from Purkinje cells in cat cerebellar cortex demonstrated an 8–10/sec burst activity following intravenous administration of harmaline (10 mg/kg), a drug known to produce tremor at the same frequency. The burst activation of Purkinje cells was generated by large all-or-none depolarizations similar to climbing fiber (CF) excitatory postsynaptic potentials (EPSPs). Polarization of the cell membrane through the recording electrode (via a Wheatstone bridge) revealed that the all-or-none depolarization had an equilibrium potential and time course identical to the electrically evoked CF-EPSP, demonstrating directly that tremor is associated with specific activation of the CF afferent system. Interspike frequency histograms of the burst responses of Purkinje cells show that the rhythmic CF activity may continue for several hours with approximately 10% frequency scatter, the actual frequency depending on the level of anesthesia. Simultaneous extracellular recordings from Purkinje cells near the midline vermis indicated that CFs projecting to this area fire in a synchronous manner, while simultaneous recording from three Purkinje cells at different lateralities from the midline showed that the rhythmic activity is reduced in the lateral vermis and may be absent in the cerebellar hemispheres. Intra- and extracellular recordings from cerebellar nuclear cells (fastigial) disclosed a bursting type of activation following harmaline; a similar type of activity could be recorded in the reticular formation neurons and at inferior olive level. At spinal cord level, harmaline induced a repetitive and rhythmic activation of motoneurons which was not modified by dorsal root section. Cooling of the cerebellar cortex produced a definite desynchronization of the rhythmic motoneuronal firing. However, the basic 10/sec firing of the spinal cord motoneurons could still be observed. Following lesion of the inferior peduncles which interrupted the olivo-cerebellar pathway, the rhythmic activation of Purkinje cells, nuclear cells, vestibular and reticular cells and motoneurons disappeared. However, the rhythmic activity was maintained at inferior olivary level. It is suggested that harmaline acts directly on the inferior olive since in animals with low decerebration, cerebellectomy and spinal transection, rhythmic activity of the inferior olive could still be observed. The results of these experiments strongly suggest that the inferior olive is able to generate the activation of motoneurons and that such influence can only take place through the activation of the cerebellar nuclei. Possible functions of the inferior olive as a generator of fast muscular transients are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236557

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4

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Sensory separation in climbing and mossy fiber inputs to cat vestibulocerebellum (1974)

Simpson, J. I. ; Precht, W. ; Llinás, R.

Springer

Pflügers Archiv 351 (1974), S. 183-193

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ISSN: 1432-2013

Keywords: Cerebellum ; Vestibular System ; Visual System ; Climbing Fibers ; Mossy Fibers

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Electrical or flash stimulation of the visual pathway evoked in the vestibulocerebellum of barbiturate anesthetized cats, field and unitary potentials characteristic of climbing fiber (CF) activation of Purkinje cells. The latency of the CF field potentials was 11–15 msec in the flocculus and 14–19 msec in the nodulus/ventral uvula. Mossy fiber (MF) related field and unitary responses were not observed following visual stimulation. Conversely, electrical stimulation of the VIIIth nerve evoked in the vestibulocerebellum MF-related field and unitary potentials, exclusively. Despite this dichotomy, the field potentials evoked by visual and vestibular stimulation frequently overlapped within the cerebellar cortex. This overlap was shown at the level of individual Purkinje cells by means of extra- and intracellular recordings which demonstrated vestibulo-visual convergence. These observations indicate that a given sensory modality may reach specific cerebellar areas utilizing only one of the two cerebellar afferent systems. It is concluded that the MF and CF afferent systems, when considered as sensory inputs, can operate as independent information channels.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586917

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Cerebellar Purkinje cell responses to physiological stimulation of the vestibular system in the frog (1971)

Llinás, R. ; Precht, W. ; Clarke, M.

Springer

Experimental brain research 13 (1971), S. 408-431

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ISSN: 1432-1106

Keywords: Vestibulo-cerebellar input ; Purkinje cells ; Mossy fibers ; Climbing fiber ; Responses to rotation ; Frog cerebellum

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The electrical activity of single Purkinje cells was studied in the auricular lobe and in the vestibular cerebellum of Rana catesbeiana during horizontal angular acceleration. This form of physiological stimulation allowed the Purkinje cells to be categorized into four main classes, depending on the general properties of their responses. 1. Type I Purkinje cells responded to ipsilateral horizontal acceleration. Their discharge was blocked during contralateral rotation. Within this group, individual Purkinje cell responses to a protracted acceleration varied from purely phasic to purely tonic discharge. 2. Type II Purkinje cells were characterized by their activation following contralateral horizontal acceleration and by lack of response to the ipsilateral rotation. Both type I and II Purkinje cells were encountered mainly in the auricular lobe. 3. Type III, the most common form of Purkinje cell response, was activated by rotation in either ipsi- or contralateral direction. Their response, as that of type I, could vary from a purely phasic to a purely tonic discharge. The study of field potentials and unitary responses evoked by electrical stimulation of the vestibular nerve demonstrated that type III Purkinje cell response was evoked via a polysynaptic pathway different from that which activated Purkinje cells in the auricular lobe. 4. Type IV Purkinje cells were characterized by the reduction of spontaneous firing during acceleration in either ipsi- or contralateral directions. 5. A comparison of the responses evoked by type III Purkinje cells in the cerebellar cortex demonstrated that neighboring Purkinje cells may respond in different fashions to the same vestibular input. Furthermore, the tonic or phasic character of a given Purkinje cell was very similar for ipsi- and contralateral rotation, suggesting that the subtle differences between responses in neighboring Purkinje cells may be related to differences in their dynamic properties rather than differences in the types of afferents received. 6. Climbing fiber activation of Purkinje cells during horizontal rotation was clearly demonstrated in five cells. These responses are considerred to be mediated through the saccular or utricular systems rather than through the semi-circular canals. The conclusion is derived that the semi-circular canal input to the cerebellum is subserved mainly by mossy fiber input. 7. The possible functional meaning of the different types of Purkinje cell response is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234339

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6

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Physiological responses of frog vestibular fibers to horizontal angular rotation (1971)

Precht, W. ; Llinás, R. ; Clarke, M.

Springer

Experimental brain research 13 (1971), S. 378-407

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ISSN: 1432-1106

Keywords: Vestibular afferents ; Vestibular efferents ; Response to rotation ; Frog vestibular modeling

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Single neuronal discharges in frog's vestibular nerve were recorded in unanesthetized preparations with glass microelectrodes. The nerve fibers supplying the horizontal semicircular canal are divided into two types according to the characteristics of their frequency responses to natural stimulation of the horizontal canal. The afferent fibers increase their firing rate only on ipsilateral rotation and cease to fire on contralateral acceleration. The efferent fibers usually increase their frequencies on rotation in either direction or show an increase in firing on contralateral rotation only. The thresholds of efferent fibers are generally higher as compared to afferent fibers. In addition, most of them show multisensory convergence. 2. Of the afferent fibers 65% showed frequency adaptation in response to prolonged acceleration steps whereas 35% did not show any sign of frequency decrease on prolonged stimulation. 3. Thirty out of 49 afferent units showed a non-linear relation between frequency increase and angular acceleration; in 19 units an approximately linear relationship was noted. In both types of responses the thresholds for frequency increase were in the range between 0.3–2.5°/sec2. 4. The time constants of the majority of fibers measured in the linear range were about 3 sec with a range between 1 and 10 sec. It is suggested that fibers having short time constants to acceleration and velocity step input represent acceleration-sensitive units whereas those having long time constants monitor angular velocity. Apparent ‘time constants’ were adopted for the non-linear range of non-linear units. These values decreased as the acceleration rate increased. 5. An approach to vestibular modeling, based on the present experimental results, is described in the Appendix.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234338

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7

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Cerebellar modulatory action on the vestibulo-trochlear pathway in the cat (1972)

Baker, R. ; Precht, W. ; Llinás, R.

Springer

Experimental brain research 15 (1972), S. 364-385

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ISSN: 1432-1106

Keywords: Vestibulo-trochlear reflex ; Reverberation ; Floccular inhibition ; Commissural inhibition ; Cerebellar influence

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Field and intracellular potentials were recorded at the level of the trochlear nucleus (TN) following stimulation of the ipsi- or contralateral vestibular nerve (Vi, Vc) or the cerebellar flocculus (Floc). Vi and Vc stimulation produced clear presynaptic field potentials in the TN as the vestibulo-trochlear volleys ascending from the vestibular nucleus reached the trochlear motoneurons (TMns). Paired Vi-Vi or Vc-Vc stimulation at different intervals demonstrated a clear depression of the second of the two presynaptic potentials in the TN. A similar finding was obtained intracellularly from TMns. These results indicate a marked reduction in the excitability of the vestibular neurons following the conditioning stimulus. This period of subnormality may last for as long as 40 msec. Electrical stimulation of Vi and Vc generated an IPSP and EPSP respectively in TMns. In most instances these synaptic potentials occurred in a repetitive fashion after a single stimulation to either nerve. This reverberatory-like tendency of the vestibulo-trochlear pathways was absent in decerebellate animals, implying a cerebellar modulatory mechanism on vestibulo-trochlear transmission. Floccular stimulation produced a strong monosynaptic depression of the field and intracellular potentials evoked in the TN by Vi activation. In chronic experiments where the vestibular nerve had been transected, Floc stimulation generated a disinhibition of TMns through its suppression of the ipsilateral inhibitory vestibular neurons which project to the TN. Contralateral Floc stimulation produced a clear disfacilitation of TMns by the inhibition of contralateral excitatory vestibular neurons. Direct evidence was obtained for commissural inhibition acting on both the inhibitory and excitatory vestibular neurons projecting to the TN. The functional implications of the interaction between ipsi- and contralateral vestibular nuclei and the cerebellum and vestibular nuclei are considered in the Discussion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234124

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Afferent neck projection to the cat cerebellar cortex (1974)

Berthoz, A. ; Llinás, R.

Springer

Experimental brain research 20 (1974), S. 385-401

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ISSN: 1432-1106

Keywords: Neck afferents ; Cerebellum ; Climbing fiber ; Mossy fiber ; Purkinje cell

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Afferent information from the neck plays an important role in the regulation of posture and the control of head and eye movements. The present series of experiments was designed in order to characterize the cerebellar projections of neck afferents in the cat. Both anesthetized and decerebrate animals were used, and recordings were obtained following electrical stimulation of the second cervical dorsal root (C2). 2. Following electrical stimulation of C2 dorsal root, field potentials were recorded in lobules V and VI. Amplitude was maximum in the lateral third of the ipsilateral lobule V. These field potentials were produced by combined mossy and climbing fiber (MF and CF) volleys arriving at the cerebellar cortex with different latencies: 8 msec for MF and 24 msec for CF (mean values). The threshold for electrical stimulation was lower for MF than for CF activation; CF responses were evoked by high threshold afferents from muscle and joint receptors. 3. A comparison was made between the latencies of cerebellar responses evoked by electrical stimulation of nuchal and other afferents (vestibular nerve, fore-and hindpaw). The latencies of MF responses vary widely, while those of the CF responses show a much smaller variation. 4. Projection of the afferents from the neck was also demonstrated in the pars intermedia at the limit of the caudal folium of lobule V and of lobule VI (lobule simplex). A study of the convergence to this portion of pars intermedia demonstrated that stimulation of extraocular muscle nerves, trigeminal nerve, and fore-and hindpaws, as well as the neck afferents, generates a strong localized CF response with actual convergence onto single Purkinje cells. The recordings suggest that this area of wide convergence on CFs is not restricted to the superficial cortex, but extends through the depth of the fissura prima. Implications of these findings, in relation to the functional organization of lobule VI and the fissura prima, are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237383

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