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ref: -0 tags: Kato fear conditioning GABA auditory cortex mice optogenetics SOM PV date: 02-04-2019 19:09 gmt revision:0 [head]

PMID-29375323 Fear learning regulates cortical sensory representation by suppressing habituation

  • Trained mice on CS+ and CS --> lick task.
    • CS+ = auditory tone followed by tailshock
    • CS- = auditory tone (both FM modulated, separated by 0.5 - 1.0 octave).
    • US = licking.
  • VGAT2-ChR2 or PV-ChR2
  • GABA-ergic silencing of auditory cortex through blue light illumination abolished behavior difference following CS+ and CS-.
  • Used intrinsic imaging to locate A1 cortex, then AAV - GCaMP6 imaging to lcoated pyramidal cells.
  • In contrast to reports of enhanced tone responses following simple fear conditioning (Quirk et al., 1997; Weinberger, 2004, 2015), discriminative learning under our conditions caused no change in the average fraction of pyramidal cells responsive to the CS+ tone.
    • Seemed to be an increase in suppression, and reduced cortical responses, which is consistent with habituation.
  • Whereas -- and this is by no means surprising -- cortical responses to CS+ were sustained at end of tone following fear conditioning.
  • ----
  • Then examined this effect relative to the two populations of interneurons, using PV-cre and SOM-cre mice.
    • In PV cells, fear conditioning resulted in a decreased fraction of cells responsive, and a decreased magnitude of responses.
    • In SOM cells, CS- responses were enhanced, while CS+ were less enhanced (the main text seems like an exaggeration c.f. figure 6E)
  • This is possibly the more interesting result of the paper, but even then the result is not super strong.

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ref: Kato-2006.01 tags: bioactive neural probes flexible parylene japan Kato microspheres date: 01-28-2013 03:57 gmt revision:1 [0] [head]

PMID-17946847[0] Preliminary study of multichannel flexible neural probes coated with hybrid biodegradable polymer.

  • Conference proceedings. a little light.
  • :-)
  • probes made of parylene-C

____References____

[0] Kato Y, Saito I, Hoshino T, Suzuki T, Mabuchi K, Preliminary study of multichannel flexible neural probes coated with hybrid biodegradable polymer.Conf Proc IEEE Eng Med Biol Soc 1no Issue 660-3 (2006)