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Modeling collective oscillations in the inferior olive [Meeting Abstract]
Varona, P.; Torres, J. J.; Abarbanel, H. D. I.; Makarenko, V. I.; Llinas, R.; Rabinovich, M. I.
BIOSIS:PREV200000144354
ISSN: 0190-5295
CID: 92320
Effect of T-588, a neuroprotective agent, at mouse motor nerve terminals [Meeting Abstract]
Urbano, F. J.; Rosato-Siri, M. D.; Hirata, K.; Nakagawa, M.; Sugimori, M.; Llinas, R.; Uchitel, O. D.
BIOSIS:PREV200000146978
ISSN: 0190-5295
CID: 92317
Binding of somatosensory stimuli in sighted and blind subjects [Meeting Abstract]
Sauve K; Wang G; Rolli M; Jagow R; Kronberg E; Ribary U; Llinas R
ORIGINAL:0004426
ISSN: 1053-8119
CID: 33827
Patterns of spontaneous purkinje cell complex spike activity in the awake rat
Lang EJ; Sugihara I; Welsh JP; Llinas R
The olivocerebellar system is known to generate periodic synchronous discharges that result in synchronous (to within 1 msec) climbing fiber activation of Purkinje cells (complex spikes) organized in parasagittally oriented strips. These results have been obtained primarily in anesthetized animals, and so the question remains whether the olivocerebellar system generates such patterns in the awake animal. To this end, multiple electrode recordings of crus 2a complex spike activity were obtained in awake rats conditioned to execute tongue movements in response to a tone. After removal of all movement- and tone-related activity, the remaining data were examined to characterize spontaneous complex spike activity in the alert animal. Spontaneous complex spikes occurred at an average firing rate of 1 Hz and a clear approximately 10 Hz rhythmicity. Analysis of the autocorrelograms using a rhythm index indicated that the large majority of Purkinje cells displayed rhythmicity, similar to that in the anesthetized preparation. In addition, the patterns of synchronous complex spike activity were also similar to those observed in the anesthetized preparation (i.e., simultaneous activity was found predominantly among Purkinje cells located within the same parasagittally oriented strip of cortex). The results provide unequivocal evidence that the olivocerebellar system is capable of generating periodic patterns of synchronous activity in the awake animal. These findings support the extrapolation of previous results obtained in the anesthetized preparation to the waking state and are consistent with the timing hypothesis concerning the role of the olivocerebellar system in motor coordination
PMID: 10087085
ISSN: 0270-6474
CID: 6067
T-588, a neuroprotective agent, reduces synaptic facilitation in crayfish neuromuscular junction [Meeting Abstract]
Nakagawa, M.; Hirata, K.; Urbano, F. J.; Uchitel, O. D.; Sugimori, M.; Llinas, R.
BIOSIS:PREV200000067673
ISSN: 0190-5295
CID: 92321
FM1-43 uptake is blocked at the mammalian neuromuscular junction by the neuroprotective agent T-588: A two photon microscopy study [Meeting Abstract]
Hirata, K.; Urbano, F. J.; Nakagawa, M.; Uchitel, O. D.; Sugimori, M.; Llinas, R.
BIOSIS:PREV200000067672
ISSN: 0190-5295
CID: 92322
Functional imaging of plastic changes in the human brain
Ribary U; Cappell J; Mogilner A; Hund-Georgiadis M; Kronberg E; Llinas R
PMID: 10609001
ISSN: 0091-3952
CID: 9871
Thalamocortical dysrhythmia: A neurological and neuropsychiatric syndrome characterized by magnetoencephalography
Llinas RR; Ribary U; Jeanmonod D; Kronberg E; Mitra PP
Spontaneous magnetoencephalographic activity was recorded in awake, healthy human controls and in patients suffering from neurogenic pain, tinnitus, Parkinson's disease, or depression. Compared with controls, patients showed increased low-frequency theta rhythmicity, in conjunction with a widespread and marked increase of coherence among high- and low-frequency oscillations. These data indicate the presence of a thalamocortical dysrhythmia, which we propose is responsible for all the above mentioned conditions. This coherent theta activity, the result of a resonant interaction between thalamus and cortex, is due to the generation of low-threshold calcium spike bursts by thalamic cells. The presence of these bursts is directly related to thalamic cell hyperpolarization, brought about by either excess inhibition or disfacilitation. The emergence of positive clinical symptoms is viewed as resulting from ectopic gamma-band activation, which we refer to as the 'edge effect.' This effect is observable as increased coherence between low- and high-frequency oscillations, probably resulting from inhibitory asymmetry between high- and low-frequency thalamocortical modules at the cortical level
PMCID:24801
PMID: 10611366
ISSN: 0027-8424
CID: 8601
Reduced facilitation and vesicular uptake in crustacean and mammalian neuromuscular junction by T-588, a neuroprotective compound
Hirata K; Nakagawa M; Urbano FJ; Rosato-Siri MD; Moreira JE; Uchitel OD; Sugimori M; Llinas R
Bath application of compound T-588, a neuroprotective agent, reduced paired-pulse and repetitive-pulse facilitation at mammalian and crustacean neuromuscular junctions. In addition, it reduced voltage-gated sodium and potassium currents in a use-dependent fashion, but had only a small effect on the presynaptic Ca(2+) conductance. By contrast, it blocked FM 1-43 vesicular uptake but not its release, in both species. Postsynaptically, T-588 reduced acetylcholine currents at the mammalian junction in a voltage-independent manner, but had no effect on the crayfish glutamate junction. All of these effects were rapidly reversible and were observed at concentrations close to the compound's acute protective level. We propose that this set of mechanisms, which reduces high-frequency synaptic transmission, is an important contributory factor in the neuroprotective action of T-588
PMCID:24480
PMID: 10588749
ISSN: 0027-8424
CID: 9873
The squid giant synapse : a model for chemical transmission
Llinas, Rodolfo R
New York : Oxford University Press, 1999
Extent: vii, 224 p. ; 24cm
ISBN: 0195116526
CID: 1979