Upper MN and Basal Ganglia

Question 1

Low threshold electrical stimulation will elicit _____ in the motor cortex?

Answer 1

• patterns of movements

Question 2

What are betz?

Answer 2

• 5% of neurons
• important to elicit movement in distal extremities (fingers)
• synapse directly onto alpha motor neurons
• layer 5
• large

Question 3

What is the corticospinal tract?

Answer 3

• body muscle control

Question 4

What is the corticobulbar tract?

Answer 4

• facial muscle control

Question 5

Where does 90% of the corticospinal axons cross-over to form the lateral corticospinal tract? What tract do the other 10% follow?

Answer 5

• caudal medulla

- ventral corticospinal tract

Question 6

The corticospinal tract also contains some axons from which area and why?

Answer 6

• layer 5 neurons of somatosensory cortex

- these mediate proprioceptive modulation of motor circuits

Question 7

What kind of face paralysis does an upper motor neuron lesion result in? Why?

Answer 7

• weakness of inferior facial muscles contralateral to lesion
• below eyebrows
• severs output from face representation in primary cortex
• cingulate motor area spared because of bilateral projections

Question 8

What kind of face paralysis does a lower motor neuron lesion result in? Why?

Answer 8

• weakness of superior and inferior facial muscles

- severs output from face representation in primary cortex and from cingulate motor area

Question 9

What type of stroke often results in upper motor neuron lesion?

Answer 9

• strokes that involve the middle cerebral artery

- damage to motor areas in the lateral frontal lobe

Question 10

What does the topographic map in the primary motor cortex represent?

Answer 10

• map of movement

- movements rather than muscles are probably encoded

Question 11

On average, how many contacts does one upper motor neuron make in the wrist?

Answer 11

• one upper motor neuron contacts neurons in 2-3 motor pools in the wrist

Question 12

What type of stimuli did they apply to monkeys to study the motor cortex topographic map?

Answer 12

• extended the duration of cortical microstimulation to a timescale that more closely corresponds to the duration of volitional movements
• applied to the precentral gyrus resulted in purposeful movements

Question 13

What study was conducted to look at directional properties of upper motor neurons?

Answer 13

• train monkey to move a joy stick in direction of light

- record the activity of a single neuron at a time

Question 14

What was found from experiments studying the directional properties of upper motor neurons?

Answer 14

• single neuron activity increases before action in specific direction
• neurons “preferred direction”
• population vector

Question 15

What is the motor function of the basal ganglia?

Answer 15

• gating proper initiation of movement

- suppresses unwanted movements, prepares upper MN circuits for movement initiation

Question 16

Which part of the midbrain is dopaminergic and which is not?

Answer 16

• dopaminergic: substantia nigra pars compacta

- not dopaminergic: substantia nigra pars reticulata

Question 17

What parts of the brain are included in the basal ganglia?

Answer 17

• caudate nucleus
• putamen
• globus pallidus (external and internal)
• substantia nigra pars reticulata

Question 18

Where do the caudate and putamen receive inputs from?

Answer 18

• motor cortex

Question 19

What is the main input to the motor cortex?

Answer 19

• from ventroanterior and ventrolateral thalamus

Question 20

What provides input to the medium spiny neurons of the caudate and putamen?

Answer 20

• from cortex, substantia nigra pars compacta, and local circuits within the corpus striatum

Question 21

What do the areas of input to the medium spiny neurons of the caudate and putamen indicate?

Answer 21

• the response of the medium spiny neurons to their principle input, derived from the cerebral cortex, can be modulated by dopamine and the inputs of local circuit neurons

Question 22

What is the primary output of the medium spiny neurons?

Answer 22

• to neurons in the globus pallidus and substantia nigra pars reticulata

Question 23

Are the medium spiny neurons excitatory or inhibitory?

Answer 23

• inhibitory

Question 24

Are the globus pallidus and substantia nigra pars reticulata neurons excitatory or inhibitory?

Answer 24

• inhibitory

Question 25

What pathways extend from the caudate and putamen?

Answer 25

- inhibit substantia nigra pars reticulata --> inhibit superior colliculus - inhibit globus pallidus internal --> inhibit VA/VL complex (thalamus) --> excite motor cortex

Question 26

What is the "big loop" input to putamen?

Answer 26

- sensory in parietal cortex, visual in temporal and occipital cortex, auditory association in temporal cortex, premotor in frontal lobe

Question 27

What is the "big loop" input to caudate?

Answer 27

- multimodal association cortices and frontal motor that controls eye movements

Question 28

What is the chain of neurons arranged in a disinhibitory circuit starting with the striatum?

Answer 28

``` - striatum inhibits - globus pallidus inhibits - VA/VL complex of thalamus (or superior colliculus for eye movements) excites - motor cortex ```

Question 29

What is the direct motor pathway?

Answer 29

- caudate and putamen through internal globus pallidus | - activation leads to release of tonic inhibition of thalamic neurons

Question 30

What is the indirect motor pathway?

Answer 30

- putamen, external globus pallidus, external globus pallidus to subthalamic nucleus to internal globus pallidus to internal thalamus and then frontal cortex

Question 31

What does the balance between the indirect and direct motor pathways facilitate? Why?

Answer 31

- facilitates expression of intended motor program - the indirect modulates the disinhibitory actions of the direct - direct releases thalamic cells from inhibition; indirect increase inhib effects of some basal ganglia neurons to supress off-target movement programs

Question 32

_____ pathway sharpens the motor commands delivered from thalamus to motor cortex.

Answer 32

indirect

Question 33

What does the center-surround functional organization of the direct and indirect pathways explain?

Answer 33

- putamen synapses densely on single neurons creating a directed inhibition of inhibition of thalamus - subthalamic nucleus synapse onto GPi are more diffuse (gives excitatory surround that roduces inhibitory surround in thalamus)

Question 34

What is the pathway of dopamine modulation and why is it complex?

Answer 34

- medium spiny to substantial nigra pars compacta and back to medium spiny - duality due to presence of D1 (excitatory) and D2 (inhibitory) receptors

Question 35

What are the functions of D1 receptors?

Answer 35

- stimulates production of cAMP | - increase the responsiveness of the direct cortical striatal path

Question 36

What are the functions of D2 receptors?

Answer 36

- inhibits production of cAMP | - decreases the responsiveness of the indirect pathway

Question 37

What do Parkinson's symptoms result from?

Answer 37

- degeneration of dopaminergic neurons in substantia nigra pars compacta

Question 38

What does Huntington's result from?

Answer 38

- degeneration of neurons in caudate and putamen

Question 39

What are the symptoms of Parkinson's?

Answer 39

- tremor at rest - slowness of movement - rigidity of the extremities, neck, and minimal facial expressions - short steps, stooped posture, no arm swinging - hypokinetic

Question 40

What is the cause of Parkinson's?

Answer 40

- rare forms with identified genetic cause (alpha-synuclein, parkin, and DJ-1) - common forms: unknown

Question 41

How does Parkinson's affect the indirect and direct pathways?

Answer 41

- indirect: increased | - direct: diminished

Question 42

What are the symptoms of Huntington's?

Answer 42

- gradual onset - change in mood: suspiciousness, impulsive behaviour - defects in memory and attention may occur - rapid jerky motions with no clear purpose (hemiballismus)

Question 43

What is the cause of Huntington's?

Answer 43

- genetic cause: repeated CAG sequences | - > 35 repeats

Question 44

What is the cause of the symptoms of Huntington's?

Answer 44

- neurons from caudate/putamen to globus pallidus external are degenerated - indirect pathway affected

Question 45

What happens when we use a GABA agonist in the substantia nigra pars reticulata?

Answer 45

- inhibition of different parts of the substantia nigra pars reticulata - spontaneous saccades follow different paths

Question 46

Does dopaminergic input to striatum contribute to reward/modulate behaviour?

Answer 46

- saccade latencies toward target are shorter when goal of movement is associated with larger reward - D1 antagonist eliminates this effect - D2 antagonist enhances this effect