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Labmeeting paper. Purkinje cells directly inhibit granule cells in specialized regions of the cerebellar cortex

1.

Papers
Laura:
Purkinje Cells Directly Inhibit Granule Cells in Specialized Regions of the Cerebellar Cortex
Chong Guo, Laurens Witter, Stephanie Rudolph, Hunter L. Elliott, Katelin A. Ennis, Wade G. Regehr
Neuron, corrected proof 2016
13.09.2016
Portugues Lab meeting
1

2.

Daniil Markov
13.09.2016
Portugues Lab meeting
2

3.

Hypothesis
“The IO compares descending motor commands with information about movement and detects mismatches”
13.09.2016
Portugues Lab meeting
3

4.

Behavioral paradigm
rDAO
rMAO
PO
55 cells
13.09.2016
Portugues Lab meeting
4

5.

Average discharge rate during different behaviors
1.8
1.6
1.4
1.2
1
[spikes/sec ± SD]
0.8
0.6
0.4
0.2
0
Stance
rDAO
rMAO
Undisturbed task trials
Missing handle trials
PO
… is the same. But the average discharge rate is a bad measure for the IO.
13.09.2016
Portugues Lab meeting
5

6.

Reaching for a missing handle
Almost no discharge related to any particular
phase of the undisturbed reaching task
No discharge modulation during the multiple
attempts to grasp the missing handle
13.09.2016
Portugues Lab meeting
6

7.

Reaching for a missing handle
Almost no discharge related to any particular
phase of the undisturbed reaching task
No discharge modulation during the multiple
attempts to grasp the missing handle
The same cells showed discharge increase
when the limb was mechanically stimulated
during stance
A mismatch between motor command
and expected movement outcome is
not sufficient to elicit olivary
discharge; stimulation is required.
13.09.2016
Portugues Lab meeting
7

8.

Responses to perturbations
During stance all cells responded to tapping
with probability approaching 100 %
Almost no discharge related to any particular
phase of the undisturbed reaching task
rDAO cells didn’t respond to unexpected
perturbation
PO cells and rMAO cells increased discharge
probability after contact with the obstructing
bar
Unexpected stimulus, but not the
unexpected absence of stimulus, can
activate IO cells in some of its
subdivisions.
13.09.2016
Portugues Lab meeting
8

9.

Responses of rMAO cell to perturbations at different phases of the task
Responses of some IO cells to
unexpected perturbations depend on
the phase of the behavior
13.09.2016
Portugues Lab meeting
9

10.

Outlook
• IO cells respond to external stimuli during stance period
• This responsiveness disappears during active movement, i.e. they do not respond to self-generated stimuli
• During active movements, some IO cells can still be activated by unexpected perturbations presented during some
(not all) behavioral phases
• IO cell do not respond to unexpected absence of stimuli during active movement (motor errors) and are unlikely to
provide any information about movement
• IO cells are often activated by stimuli which also elicit reflexes (US stimuli).
13.09.2016
Portugues Lab meeting
10
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