Lecture 2 Clock circuits in the mammalian brain

Question 1

PVN

Answer 1

paraventricular nucleus

Question 2

AHA

Answer 2

Anterior hypothalamic area

Question 3

sPVNz

Answer 3

subparaventricular zone

Question 4

SCN

Answer 4

suprachiasmatic nucleus.

light entrainable circadian pacemaker.

Question 5

OX

Answer 5

optic chiasm

Question 6

anatomy of hypothalamus?

Answer 6

2x SCN, seperated by the third ventricle.

Question 7

SCN neurons properties?

Answer 7

v small 8-12um.
densely packed.

neurochemically heterogeneous - most contain GABA, but also contain a variety of different neuropeptides, spatially segregated to different subregions of the SCN

Question 8

where does SCN recieve monosynaptic input from?

Answer 8

retina via the retinohypothalamic tract (RHT).

RHT inputs are primarily to ventral parts of the SCN.

RHT synapses are excitatory (gray type I, therefore the depolarise and activate SCN neurons.

Question 9

what is the main RHT neurotransmitter?

Answer 9

glutamate, augmented by PACAP

Question 10

what is PACAP?

Answer 10

pituitary adenylate cyclase activating polypeptide.

located heavily in the ventral SCN (found via immunostaining).

Question 11

How is the GHT formed?

Answer 11

Neurons in the intergeniculate leaflet (IGL) of the visual thalamus project to the SCN, forming the geniculohypothalamic tract (GHT)

Question 12

What neurotransmitters does the GHT use?

Answer 12

GHT input uses both GABA and Neuropeptide Y (NPY); these are inhibitory; this input hyperpolarises and suppresses SCN neurons.

Question 13

How does the MR innervate the SCN?

Answer 13

Neurons in the Median Raphe (MR) innervate the SCN; they contain serotonin (5-Hydroxytryptophan or 5-HT); this input suppresses SCN neuronal activity.

Question 14

How does the DR innervate the IGL?

Answer 14

Neurons in the Dorsal Raphe (DR) innervate the IGL; they contain 5-HT

Question 15

describe non photic inputs to the circadian system

Answer 15

IGL - GHT
MR
DR

Question 16

describe photic inputs to the SCN

Answer 16

RHT

Question 17

what happens if a glutamate antagonist is given before a light pulse?

Answer 17

reduces phase shift, therefore glutamate is the NT.

Question 18

What happens if arousal promoting stimulit is exposed during the day/night?

Answer 18

phase advance

night - no change

Question 19

phase response curves for photic and non photic?

Answer 19

photic what described before.

non photic - advances during inactive phase, small effect of delay in active phase.

Question 20

neurochemicals of RHT?

Answer 20

glutamate and PACAP

Question 21

neurochemicals of GHT?

Answer 21

Neuropeptide Y & GABA

Question 22

neurochemicals of brain stem?

Answer 22

5-HT

Question 23

neuropeptides made by SCN neurons?

Answer 23

intrinsic, following are ventral:
Vasoactive Intestinal Polypeptide (VIP) ,Gastin-releasing peptide (GRP), Substance P (SP)

Ventral/dorsal:
Vasopressin (AVP)

Dorsal:
Somatostatin (SOM)

Question 24

what is the core and shell model?

Answer 24

Shell - AVP cells located.
Core - VIP/GRP cells located.

Core recieves input from the RHT.

Core weak clock cells.

Core projects to shell, AVP cells are strong clock cells.

Question 25

Evidence that the SCN contains the main circadian clock?

Answer 25

When SCN lesioned arythmic, transplant restores.

Question 26

SCN activity throughout day?

Answer 26

high when inactive, low during active, GABA so probably inhibit. Rats.

Question 27

In vitro single unit recordings of cultured SCN neurons?

Answer 27

rhythmically express electrical activity -24 hr.

higher at one point of the day.

therefore clock acitivty is a product of individual cells.

Question 28

how are clock genes rhymically expressed in the SCN in vivo.

Answer 28

nice rhythms, mPer2, 1

mBmal1, mCry1, AVP

Question 29

Per1 luceferin

Answer 29

luceferin comes from firefly - glow.
per1 also makes luceferin.

SCN stays rhythmic for weeks, individual SCN neurons function as autonomous clocks.

Question 30

SCN neuron metabolism?

Answer 30

higher during day than night.

Question 31

when does PER gene expression peak?

Answer 31

during day.

Question 32

outputs of SCN?

Answer 32

Hypothalamus:
aPVN to influence corticotrophin releasing hormone and melatonin frmo pineal gland.

sPVNz
DMH
MPN

Thamalus:
PVT
paratenial nucleus
LGN

Question 33

how does SCN molecule and cellular rhythm change during the day in relation to behavioural activity?

Answer 33

SCN molecular and cellular rhythms peak in the day,

behavioural Activity low in day, high at night

Question 34

PK2?

Answer 34

Prokineticin 2.
Suppresses locomotor activity.
High during day (for what?)