Neurotransmitters

Question 1

What 4 criteria does a neurotransmitter need to satisfy?

Answer 1

1. Synthesis: the NT must be made in the pre-synaptic neuron
2. Storage: the NT must be stored pre-synaptically in vesicles (exception is NO)
3. Release: NT must be released on demand
4. Inactivation: NT must be inactivated

Question 2

What can happen to the NT after it binds and activates post-synaptic receptors?

Answer 2

+ Enzyme activation
+ Diffusion
+ Re-uptake

Question 3

What is a receptor?

Answer 3

A protein that is either in the plasma or inserted in the outer membrane of a cell

Question 4

What is the relationship between the receptor and a NT?

Answer 4

+ The receptor binds to and is activated by a NT

+ Lock and key hypothesis

+ Most receptors types are activated by only one NT but there are families of receptors sensitive to a single NT. exceptions include co-agonists, constitutively active receptors

Question 5

What are the neurotransmitter classifications by structure?

Answer 5

+ Amino acids (simple compound with carboxyl group and amino group)

+ Biogenic amines:

• catecholamines
• indolamines

+ Peptides

Question 6

What are the different amino acid neurotransmitters?

Answer 6

+ Glutamate

• primary excitatory NT of CNS
• acts through calcium ions

+ GABA

• inhibitory
• aminobutyric acid

+ Glycine
- inhibitory

(Other AAs: Aspartate, proline, taurine, beta-alanine)

Question 7

What are the different biogenic amine neurotransmitters (catecholamines)?

Answer 7

+ Norepinephrine
+ Epinephrine
+ Dopamine

Question 8

What are the different biogenic amine neurotransmitters (indolamines)?

Answer 8

+ Serotonin

Question 9

What are the different peptide neurotransmitters?

Answer 9

+ Encephalin
+ Endorphin
+ Dynorphin

(Others include: Substance P, neuropeptide Y, neurotensin, cholecystokinin)

Question 10

Where are the amino acid neurotransmitters produced?

Answer 10

In the bouton

Question 11

What are functions of NT glutamate?

Answer 11

+ Action at post synapse predominantly by opening cation (e.g Na+) channels

+ Inactivation is by re-uptake and is recycled to either glutamate or GABA

Question 12

What is the term for neurons within or spanning hemispheres?

Answer 12

Intra and inter-hemispheric connections

Question 13

What are the terms for neurons descending to the braintstem or spinal cord?

Answer 13

+ Corticobulbar tracts

+ Corticospinal tracts

Question 14

What other receptors are also permeable to calcium ions?

Answer 14

+ AMPA
+ Kainate
+ NMDA

Question 15

What type of transmission are kainate glutamate receptors involved in?

Answer 15

Fast synaptic transmission and synaptic plasticity

Question 16

What type of transmission are NMDA receptors involved in?

Answer 16

Slow synaptic transmission

Question 17

Which neurotransmitter is involved in memory, learning and cell death?

Answer 17

Glutamate

Question 18

What is synaptic plasticity?

Answer 18

+ The process by which synapses are strengthened or weakened by feedback mechanisms

+ Basic process for storing long and short term memories

Question 19

What is the result of excessive glutamatergic stimulation of NMDA receptors?

Answer 19

A large influx of calcium ions; through a variety of processes this can result in cell death known as EXCITOXICITY

Question 20

Which neurotransmitters is involved in migraines?

Answer 20

Glutamate

Question 21

What can happen in regards to excess excitation?

Answer 21

It can feedback on itself to cause uncontrolled waves of excitation over expanding areas in the brain

Question 22

What do the results of excess excitation manifest as at first?

Answer 22

+ Begin as PARTIAL COMPLEX seizures (partial - not the whole brain, complex - due to an alteration of consciousness)

Question 23

What can the partial complex seizures progress to, and what causes the progression?

Answer 23

Grand Mal seizures (involve the whole brain):

- if the waves of depolarisation become more uncontrolled

Question 24

How are seizures treated, and what do the treatments do?

Answer 24

With BENZODIAZEPINES:

• increase the action of GABA and drugs like PHENYTOIN which increase inactivation (refractory) period between firings in voltage activated Na+ channels

Question 25

Why do benzodiazepines increase the action of GABA?

Answer 25

+ They act on a separate receptor binding site on the GABAa receptor, compared to GABA

+ This binding site controls the ability of GABA to open the channel; more benzodiazepines bound => GABA can open the channel more often

+ Benzodiazepines therefore only enhance the action of existing GABA molecules

Question 26

What are some features of GABA?

Answer 26

+ Principle inhibitory NT of the CNS

+ Made from glutamate

Question 27

Where is GABA found?

Answer 27

+ Predominantly in the interneurons of the CNS

+ Neurons of the striatum and globus pallidus, where it modulates descending motor information

Question 28

GABA acts at ligand gated chloride channels (not K+ channels). What is it inactivated by?

Answer 28

Pre-synaptic reuptake

Question 29

Name disease resulting from GABAergic dysfunction

Answer 29

Huntington’s

Question 30

What is the role of GABA in Huntington’s, and what is the treatment?

Answer 30

+ GABAergic neurons degenerate, which can lead to uncontrolled movement

+ Treatment: GABA mimetic

Question 31

What are the effects of alcoholism on GABA, and what are the treatments?

Answer 31

+ Causes a change in GABA transmission such that withdrawal results in convulsive movements and seizures

+ Treatment: Benzodiazepines (Diazepam, temazepam) and phenytoin

Question 32

For what are GABA agonies sometimes used?

Answer 32

+ Treatment of anxiety
+ Treatment of sleeplessness
+ Treatment of epilepsy
+ Anaesthetics (e.g propofol)

Question 33

What are some features of glycine?

Answer 33

+ Second most common inhibitory NT of the CNS

+ Synthesised from serine

+ Predominant inhibitory NT in the interneurons of the spinal cord and brain stem but also present in the brain

Question 34

What is glycinergic dysfunction thought to be the cause of?

Answer 34

Inherited mammalian myoclonus

• most are benign
• others are late symptoms of more serious diseases

Question 35

What causes tetanus, and how does it do so?

Answer 35

+ Caused by a toxin from the bacteria clostridium tetani

+ It inhibits the release of glycine resulting in a shift of the excitation-inhibition balance

Question 36

What are the mild and serious effects of tetanus/shifts in excitation-inhibition balance?

Answer 36

Mild effects:
- restricted to muscles in Webster by cranial nerves

Serious effects:
- loss of inhibition in the cerebra => epiform fits

Question 37

What is the treatment for tetanus/shifts in the excitation-inhibition balance?

Answer 37

Injection of antitoxin which binds the toxin and benzodiazepines which boost GABAergic pathways

Question 38

What are some features/functions of norepinephrine?

Answer 38

+ Aka noradrenaline

+ Sympathetic NT: inhibition

+ Used in treatment for:

• Parkinson’s
• ADHD

+ Agonsists:

• cocaine
• tricyclic antidepressants

+ Projects major centres of the brain

Question 39

What are some features/functions of epinephrine?

Answer 39

+ Aka adrenaline
+ Peripheral hormone from adrenal medulla
+ Pharmacological target for cardiac and circulatory problems

Question 40

What are some features/functions of dopamine?

Answer 40

+ NT and neuromodulator
+ Involved in pleasure, addiction and movement
+ Dopaminergic axons project to the majority of the CNS (excluding cerebellum)
+ Act at G-protein linked metabotropic receptors

Question 41

Where are catecholamine NTs synthesised?

Answer 41

+ In the bouton

+ Inactivated principally by re-uptake

Question 42

What are adrenoceptors?

Answer 42

G-protein linked metabotropic receptors

Question 43

What NTs are involved in the fight or flight response (gut, heart, respiration etc)?

Answer 43

Epinephrine and norepinephrine

Question 44

What does the brainstem in the CNS use norepinephrine to influence?

Answer 44

\+ Sleep
\+ Wakefulness
\+ Attention (via reticulum)
\+ Feeding behaviour (via hypothalamus)
\+ Involved in bi-polar disorder

Question 45

What is the Locus Coeruleus?

Answer 45

The part of the brainstorm whose neurons project norepinephrinergic axons

Question 46

How many different central systems is dopamine found in and what is it involved in?

Answer 46

+ 3 different central systems

1. The control of movement
2. Certain symptoms of psychiatric disease
3. Regulation of the release of certain hormones

Question 47

Control of hormone release is exerted by dopamine. Where does this occur, and what is the role of dopamine?

Answer 47

+ Anterior pituitary

+ Dopamine released into portal vessels by hypothalamic neurons

Question 48

What is the role of dopamine in Parkinson’s?

Answer 48

Parkinson’s sufferers who experience tremors, muscle rigidity and bradykinesia or akinesia have DEPLETED dopamine in the MOTOR CO-ORDINATION CIRCUITS

Question 49

What is the role of dopamine in schizophrenia?

Answer 49

+ Can be caused by an OVER PRODUCTION of dopamine in the Mesolithic system

+ Treatment with antipsychotics

Question 50

How is dopamine related to addiction of drugs of abuse, decide, and certain behaviours such as sexual activity?

Answer 50

Dopamine works through the pleasure centres of the CNS located in the mesolimbic dopamine system

Question 51

What are some features/functions of serotonin?

Answer 51

+ Neorons originate principally in Raphe nuclei in the brainstem

+ Project to the majority of the brain and brainstem

+ Large family of both excitatory and inhibitory receptors, in the CNS & PNS

+ Modulates a range of NTs such as glutamate, GABA and dopamine

+ Functions associated with sleep, anxiety, depression and mood swings

Question 52

What is serotonin dysfunction (reduction) associated with, and how can it be treated?

Answer 52

+ Associated with depression and obsessive compulsive disorder (OCD)

+ Treatment: fluoxetine (Prozac a 5-HT re-uptake inhibitor)

Question 53

What are the receptor agonists involved in the serotonergic systems (often exploited by drug users) and what do they do?

Answer 53

+ LSD
+ Psilocybin
+ Mescaline

Inhibiting mono amine catabolism generally with MAOIs (monoamine oxidative inhibitors)

OR

Inhibiting serotonin re-uptake

=> increases 5-HT levels

Question 54

What are examples of psychostimulants?

Answer 54

+ Amphetamines

+ Ecstasy

Question 55

What are features of amphetamines?

Answer 55

+ Cause release of amines such as NA, 5-HT and dopamine

+ Also inhibit re-uptake of NA, 5-HT and dopamine thus causing enhanced activation of these receptors

Question 56

What are features of ecstasy?

Answer 56

+ Amphetamine analogue: methylenedioxymethamphetamine or MDMA

+ Has numerous actions but its major effect is by causing the release of and preventing re-uptake of 5-HT

Question 57

Which peptide NT is involved in Pain transmission

Answer 57

Substance P

Question 58

Which peptide NTs are all implicated in schizophrenia?

Answer 58

+ Neuropeptide Y
+ Neurotensin
+ Cholecystokinin

Question 59

Which NTs are associated with the perception of pain?

Answer 59

Endorphins and encephalins

Question 60

What are the features/functions of endorphins and encephalins?

Answer 60

+ They act as opitate receptors in the brain and spinal cord where they are the endogenous ligand

Question 61

What are some examples of opiates?

Answer 61

\+ Morphine
\+ Codeine
\+ Pethidine
\+ Methadone
\+ Diamorphine (heroin)

Question 62

What does taking opiates lead to?

Answer 62

+ Down regulation of opiate receptors throughout the CNS

+ This causes opioid tolerance and increased intake

Question 63

What is the result of there being opioid receptors in the limbic system (and the periaqueductal grey)?

Answer 63

+ Opiates affect emotional perception as well as pain

+ Emotional element to withdrawal avoidance

Question 64

To whom is naxalone given, and what is its purpose?

Answer 64

It is given to withdrawing heroin addicts to reduce symptoms

Question 65

What is naxalone?

Answer 65

An opiate receptor agonist

Question 66

Give an example of an ester NT?

Answer 66

Acetylcholine (ACh)
+ An unusual NT but first one discovered
+ Used as a standard setter for defining NTs

Question 67

What are features/functions of the NT- acetylcholine?

Answer 67

+ Principle excitatory NT

+ Found in both CNS and PNS

Question 68

Where do the neurons of ACh project to?

Answer 68

The hippocampus & the cortex: essential for the formation of new memories and learning

Question 69

What is associated with ACh dysfunction (reduction)?

Answer 69

Alzheimer’s disease

Question 70

Which drugs act on AChs receptors?

Answer 70

+ Nicotine (drug of abuse)
+ Muscarine (agonist)
+ Atropine (antagonist)
+ Tropicamide (antagonist to dilate pupils during surgery)

Question 71

What do anticholinesterases prevent?

Answer 71

The breakdown of ACh

Question 72

What are some examples of anticholinesterases?

Answer 72

+ Insecticides (DDT)
+ Nerve gasses (Sarin)

Alzheimer’s treatments: Donepezil (aricept)

Question 73

What is Korsakoff’s psychosis?

Answer 73

The diet of an alcoholic often leads to a thiamine deficiency causing famage to the thalamus and the mammillary bodies

Question 74

What are the syptoms of Korsakoff’s psychosis?

Answer 74

+ Amnesia
+ Confabulation
+ Lack of insight
+ Apathy

Question 75

Are there treatment options for Korsakoff’s psychosis?

Answer 75

The cells involved are cholinergic and partial recovery can sometimes be achieved by using anticholinesterases