Chemicals in the brain

Question 1

What is the life cycle of neurotransmitters?

Answer 1

AP in presynaptic fiber
Synthesis of transmitter
Storage
Metabolism
Release
Reuptake
Degradation
Receptor (agonists/antagonists)
Receptor induced increase or decrease in ionic conductance
Retrograde signalling
Second messengers

Question 2

Are neurotransmitters endo or exogenous?

Answer 2

endogenous

Question 3

Are neurotransmitters released intra or extracellularly?

Answer 3

extracellularly

Question 4

Which neurotransmitters are under the chemical class of amino acids?

Answer 4

Glutamate
Aspartate
GABA
Glycine

Question 5

Which neurotransmitters are under the chemical class of monoamines?

Answer 5

Dopamine
Noradrenaline
Adrenaline
Serotonin

Question 6

ACh is an ester of what?

Answer 6

acetic acid and choline

Question 7

What is the life cycle of neurotransmitter?

Answer 7

Synthesis
Storage
Vesicle transport and fusion with membrane
Release
Diffusion across synaptic cleft
Action on post-synaptic cell
Signal termination

Question 8

Do inhibitory neurotransmitters hyperpolarise or depolarise membranes? Which ion does this directly effect?

Answer 8

Hyperpolarise - makes cell more stable
Cl-

Question 9

Do excitatory neurotransmitters hyperpolarise or depolarise membranes?

Answer 9

Depolarise
Na+

Question 10

What is the major inhibitory amino acid?

Answer 10

GABA

Question 11

What is the primary excitatory amino acid?

Answer 11

Glutamate

Question 12

Are amino acids located in a specific area of the brain?

Answer 12

No - ubiquitous distribution

Question 13

Is glutamate sourced or synthesised?

Answer 13

Both - sourced from diet and synthesised from a-ketoglutarate and glutamine

Question 14

Glutamate is sequestered into synaptic vesicles via what?

Answer 14

Vesicular glutamate transporters (VGLUTS)

Question 15

Glutamate is released into synaptic vesicles when an AP arrives where?

Answer 15

synaptic bouton

Question 16

What processes are affected by glutamate?

Answer 16

Pain sensation
Cerebral neurotoxicity
Memory

Question 17

What type of receptors does Glutamate have?

Answer 17

Ionotropic (NMDAr, AMPAr, Kainate)
Metabotropic (ACPD; mGlu)

Question 18

What mediates a small amount of glutamatergic transmission?

Answer 18

metabotrophic receptors (mGlu)

Question 19

What ions are the majority of AMPA receptors permeable to?

Answer 19

Na+ + K+

Question 20

What ions are all NMDA receptors highly permeable to?

Answer 20

Ca2+, Na+ + K+

Question 21

NMDA receptors have a blockade of what?

Answer 21

Mg2+

Question 22

What needs to happen to AMPA before glutamate can act on NMDA receptors?

Answer 22

Glutamate acts on AMPA receptors to depolarise cell

Question 23

What needs to happen to stop Mg2+ from blocking NMDA receptors?

Answer 23

Glutamate and glycine binding and strong depolarisation = removal of Mg2+ and rise in intracellular Ca2+

Question 24

What is ‘wind up’?

Answer 24

Persistent pain signal causes a continued increase of Ca2+ through NMDA receptors, increasing transcription of more glutamate receptors.
Then can causes oxidative stress, gene transcription, altered synaptic morphology and cell death

Question 25

What is excitotoxicity?

Answer 25

Neuronal damage/death caused by excessive cellular excitation.
Pathophysiologic mechanism; stroke, epilepsy

Question 26

Do NMDA and AMPA receptors only get activated by Glutamate?

Answer 26

No
AMPA - Alcohol, anaesthetics
NMDA - Phencyclidine

Question 27

How is glutamate recycled through neighbouring cells and why?

Answer 27

Glutamate sequestered from synaptic space by transport molecules on membrane of presynaptic neurone + neighbouring glial cells. Glutamate taken back up into glutamatergic neurones (Gt(n) transporters), broken down to glutamine, packed into vesicles to then be used again in glial cells when converted back to glutamate.
Protective mechanism.

Question 28

Which drug used in Alzheimers acts as a noncompetitive NMDA antagonist?

Answer 28

Memantine

Question 29

What are the functional associations of GABA?

Answer 29

Arousal and attention
Memory formation
Anxiety
Sleep
Muscle tone

Question 30

What is GABA synthesised from?

Answer 30

Glutamate within GABAergic neurones

Question 31

GABA is sequestered into synaptic vesicles by what?

Answer 31

GABA transporter

Question 32

Which GABA receptor is ionotropic (fast) and has an integral Cl- channel?

Answer 32

GABA A

Question 33

Which GABA receptor is metabotropic (slow), has seven transmembrane domains and is G-protein linked (due to opening of K+ channels)?

Answer 33

GABA B

Question 34

Which GABA receptor is ionotropic and has a transmitter gated Cl- channel?

Answer 34

GABA C

Question 35

Which GABA receptor does the majority of GABAergic transmission work through?

Answer 35

GABA A

Question 36

What is the Ecl in neurones?

Answer 36

-70mV

Question 37

When GABAergic nerve fibres are stimulated, where does the Em (membrane) move closer to? Does this make the cell more of less excitable?

Answer 37

Ecl
Less excitable

Question 38

GABA is taken back up by what?

Answer 38

Glial cells (via GAT 1/2/3)

Question 39

Once GABA is taken up by glial cells, what is it converted to?

Answer 39

Glutamate -> Glutamine -> enters GABAergic neurones -> converted to glutamate -> GABA -> Packaged into vesicles

Question 40

What are the four main monoamines?

Answer 40

Dopamine
Noradrenaline
Adrenaline
Serotonin

Question 41

What is the synthesis of dopamine, noradrenaline and adrenaline?

Answer 41

Tyrosine -> L-DOPA -> Dopamine -> Noradrenaline -> Adrenaline

Question 42

Which enzyme converts L-DOPA to dopamine?

Answer 42

Aromatic Amino acid Decarboxylase

Question 43

What is serotonin synthesised from?

Answer 43

Tryptophan

Question 44

Can serotonin be synthesised further?

Answer 44

Yes - into melatonin

Question 45

Which dopamine receptors are G-protein linked?

Answer 45

All - D1-D5

Question 46

What is the MoA of ‘D1 family’ receptors?

Answer 46

D1+D5, increase cAMP through Gs

Question 47

What is the MoA of ‘D2 family’ receptors?

Answer 47

D2, D3 + D4, decrease cAMP through Gi

Question 48

Where are D1 + D2 receptors present?

Answer 48

Postsynaptically in the striatum

Question 49

Which dopamine receptor functions as an autoreceptor?

Answer 49

D2

Question 50

Where are D4 receptors present?

Answer 50

In the cortex, not striatum.

Question 51

Which dopamine pathway controls movement?

Answer 51

Nigrostriatal

Question 52

Which dopamine pathway controls emotion, reward system/addiction?

Answer 52

Mesocorticolimbic

Question 53

What three things can be done to Dopamine to help Parkinson’s disease symptoms?

Answer 53

Augmentation of dopamine (increase synthesis)
Dopamine agonists
Inhibit dopamine metabolism

Question 54

What drug class can treat nausea and schizophrenia?

Answer 54

Dopamine antagonists

Question 55

Which receptors mediate the effects of NA + Adr in the CNS?

Answer 55

a and b adrenoceptors

Question 56

Presynaptically, which adrenoceptor modulates NA release + the rate of firing of noradrenergic neurones?

Answer 56

a2

Question 57

When drugs act to increase brain NA, what effect does this have on forebrain B-adrenoceptors?

Answer 57

down regulates

Question 58

For a drug to get to the CNS, does it have to go through the PNS?

Answer 58

yes

Question 59

Where do a-adrenoceptors act?

Answer 59

Blood vessels of organs and tissues except skeletal muscle vessels

Question 60

Which drugs are a-adrenoceptor agonists?

Answer 60

NA, Adr, Isoprenaline

Question 61

Which drugs are a-adrenoceptor antagonists?

Answer 61

Phentolamine

Question 62

Where do B1 B-adrenoceptors act?

Answer 62

Myocardium

Question 63

Where do B2 B-adrenoceptors act?

Answer 63

Bronchi, uterus, muscle + coronary vessels

Question 64

Where to B3 B-adrenoceptors act?

Answer 64

Adipose tissue

Question 65

What drugs are B-adrenoceptor agonists?

Answer 65

NA, Adr + Isoprenaline

Question 66

What drugs are B-adrenoceptor antagonists?

Answer 66

Propanolol

Question 67

Are a or b adrenoceptors sensitive to up/down regulation?

Answer 67

B

Question 68

What are the functional associations of NA?

Answer 68

Arousal + increased attention
Facilitates responsiveness of brain regions to other neurotransmitter systems

Question 69

In terms of pharmacology, how are depression and affective disorders generally treated?

Answer 69

Block reuptake of NA (Tricyclic, Serotonin + NA reuptake inhibitors)
Inhibition of degradation of NA

Question 70

How does cocaine affect NA?

Answer 70

Blocks its reuptake

Question 71

How do amphetamines affect NA?

Answer 71

Increases its release

Question 72

What is the chemical name of serotonin?

Answer 72

5-HT

Question 73

How are second messengers signalled by 5-HT?

Answer 73

Use of G-protein, except for 5-HT3

Question 74

Which 5-HT receptor subtype acts as an autoreceptor?

Answer 74

5-HT1A

Question 75

Are most 5-HT receptors located pre or post synaptically?

Answer 75

post

Question 76

Where are serotonergic nuclei located?

Answer 76

In the raphe nuclei in the brainstem

Question 77

What are the functional associations of 5-HT?

Answer 77

Send descending fibres to spinal cord to inhibit input from nociceptive pathways (descending control of pain)
Send fibres in medial forebrain to forebrain structures + cerebral blood vessels (migraine)

Question 78

What can diminished serotonergic transmission lead to?

Answer 78

Depression

Question 79

What drugs are first line for depression?

Answer 79

SSRIs

Question 80

What does MDMA increase the release of?

Answer 80

5-HT

Question 81

What is the main way monoamines are terminated?

Answer 81

Reuptake via plasma membrane transporters in pre-synaptic neuron

Question 82

Apart from reuptake, how else are monoamines terminated?

Answer 82

Uptake by non-neuronal cells.
Metabolism of endogenous + exogenous DA, NA, Adr + 5-HT (exo small amount left in cleft, then broken down) by MAO A/B + COMT.
Blockade of monoamine transporters + degradative enzymes (MAO) = increased concentrations of monoamines in synapse or neurone.

Question 83

Which enzyme metabolises dopamine in the cytosol?

Answer 83

MAO-B

Question 84

Which enzyme metabolises dopamine in the cleft?

Answer 84

COMT

Question 85

Which enzyme metabolises NA?

Answer 85

MAO-A

Question 86

Which enzyme metabolises serotonin?

Answer 86

MAO-A

Question 87

What is ACh synthesised by?

Answer 87

Choline acetyltransferase

Question 88

What is ACh made from?

Answer 88

Choline + Acetyl CoA

Question 89

What is ACh broken down by in the synaptic cleft?

Answer 89

Acetylcholinesterase (AChE) or Butyrylcholinesterase (BuChe)

Question 90

Once ACh is broken down, what happens to choline?

Answer 90

Transported back to axon terminal to make more ACh

Question 91

What are the receptors of ACh?

Answer 91

Nicotinic or Muscarinic

Question 92

Which ACh receptor is excitatory?

Answer 92

Muscarinic + Nicotinic
Muscarinic can also be inhibitory

Question 93

What is choline stored as?

Answer 93

Phosphorylcholine in phospholipids.
Phosphatidylcholine in plasma

Question 94

Can ACh be reuptaken?

Answer 94

No, broken down by AChE into choline + acetate. Choline uptake into synapse

Question 95

What is Acetyl CoA derived from?

Answer 95

Glycolysis

Question 96

What is the MoA of muscarinic receptors?

Answer 96

Metabotropic (G protein)

Question 97

Where are muscarinic receptors located?

Answer 97

Postsynaptically in smooth muscle, cardiac muscle + glands

Question 98

What are agonists of Muscarinic receptors?

Answer 98

ACh + Muscarine

Question 99

What are antagonists of muscarinic receptors?

Answer 99

atropine (belladonna)

Question 100

What MoA do nicotinic receptors have?

Answer 100

Ionotropic (pentameric cations channel)

Question 101

Where are nicotinic receptor located?

Answer 101

Autonomic ganglia, motor endplate + CNS

Question 102

What are agonists of nicotinic receptors?

Answer 102

ACh + nicotine

Question 103

What are antagonists of nicotinic receptors?

Answer 103

Curare (Tubocurarine)

Question 104

What are some functional associations with ACh?

Answer 104

Cognition, memory, attention, pain suppression, neural plasticity.
Neuromodulation
Long term-potentiation.

Question 105

What can ACh be used to treat?

Answer 105

Motion sickness
Neuromuscular diseases (Myasthenia gravis)
Acute neuromuscular blockade and reversal
Dystonias + headaches
Symptoms of Alzheimers, cognitive dysfunction