Cortical states -- sleep and others

Question 1

Define diurnal and what type of animals fall into this category

Answer 1

Active during the day
Typically visual system based animals

Question 2

Define nocturnal and what type of animals fall into this category

Answer 2

Active at night
Auditory and/or olfactory based animals

Question 3

Describe a crepuscular rhythm of activity and the likely purpose it serves.

Answer 3

Awake and active at dawn and twilight
Probably to avoid predation

Question 4

Whet entrains circadian rhythms in mammals?

Answer 4

Special retinal ganglion cells that use melanopsin and form the retinohypothalamic pathway

Question 5

What is the master circadian clock in vertebrates?

Answer 5

The pineal gland and suprachiasmatic nucleus of the hypothalamus

Question 6

What is one of the key pathways that the SCN influences other rhythms?

Answer 6

The release of melatonin from the pineal gland

Question 7

Why do the clocks desynchronize without the SCN?

Answer 7

Because each clock likely has a separate free-running time.

Question 8

What does the SCN communicate with via neural routes to synchronize rhythms?

Answer 8

Other hypothalamic nuclei which regulate many different systems/behaviors

Question 9

What are the proteins involved in the SCN clock?

Answer 9

PER/CRY
BMAL1/CLOCK

Question 10

Describe the mechanism by which SCN clock cells track time.

Answer 10

BMAL1 and CLOCK promote transcription of PER1 and Cry genes that form a dimer and inhibit BMAL1 and CLOCK

Question 11

At what point of the SCN clock is subjective dawn/the end of the inactive period?

Answer 11

When PER is low

Question 12

Do BMAL1/CLOCK or PER/CRY control other genes?

Answer 12

BMAL1/CLOCK

Question 13

How does light influence the SCN clock mechanism?

Answer 13

Light increases the breakdown of PER

Question 14

Describe how the retino-hypothalamic input influences the SCN

Answer 14

Retino-hypothalamic input to the SCN is glutamatergic and activates a proteolytic pathway to degrade Per protein

Question 15

What states do high frequency EEG readings correlate with?

Answer 15

REM sleep and wakefullness

Question 16

What states do low frequency EEG readings correlate with?

Answer 16

NREM sleep

Question 17

How does the global pattern of neuronal firing change as sleep gets deeper?

Answer 17

More synchronized

Question 18

What brain areas are deactivated during REM?

Answer 18

Dorsolaterl prefrontal cortex and Posterior cingulate cortex

Question 19

What brain areas are especially active during REM?

Answer 19

Anterior cingulate, Parahypocampal gyrus, Pontine tegmentum, and the Amygdala.

Question 20

What does an awake state require?

Answer 20

direct activation of thalamocortical systems

Question 21

How does stimulation of the reticular activating system influence sleep/wake state?

Answer 21

Promotes wakefulness

Question 22

What type of stimulation to the thalamus affects sleep/wake state and what is the induced state?

Answer 22

Low frequency stimulation
Induces sleep

Question 23

What do cholinergic nucleo in the brainstem project to and what do their signalling lead to?

Answer 23

Project to thalamus
Induce desynchronization and wakefulness

Question 24

What other neuronal groups contribute to wakefulness?

Answer 24

Locus coeruleus noradrenergic neurons,
serotonergic raphe nuclei, and histamine-containing neurons in tuberomammillary nucleus (TMN) of hypothalamus

Question 25

What are the activity states of different NT systems during REM?

Answer 25

Cholinergic systems are active.
Monamine and serotonin systems are inactive

Question 26

How does the Ventrolateral preoptic nucleus (VLPO) of hypothalamus influence the neuronal groups contributing to wakefulness?

Answer 26

The VLPO periodically inhibits them to cause sleepiness

Question 27

What inhibits motor activity during REM sleep?

Answer 27

neurons in the pontine reticular formation

Question 28

How do neurons in the pontine reticular formation inhibit motor activity during REM sleep?

Answer 28

They suppress monoaminergic activity and inhibit ascending somatosensory input (ie. inhibiting neurons in the dorsal column nuclei)

Question 29

What do lesions to the Ventral-Lateral Preoptic Area (VLPO) cause?

Answer 29

Insomnia

Question 30

How do VLPO neurons influence the sleep/wake state

Answer 30

They inhibit the histamine neurons of the tuberomammillary nucleus (TMN)