Opiates/Opioids

Question 1

What is an opiate?

Answer 1

An alkaloid derived form the poppy, Papaver somniferum

Question 2

What are the four most commonly occurring opiates?

Answer 2

Morphine
Codeine
Papaverine
Thebaine

Question 3

What is the significance of the tertiary nitrogen in the structure of morphine?

Answer 3

It is crucial for receptor anchoring and the analgesic effects of opioids

Question 4

How can the structure of morphine be altered to turn it into anopioid receptor antagonist?

Answer 4

The side chain that the tertiary nitrogen is on can be extended by 3+ carbons to turn it into an opioid receptor antagonist

Question 5

What is the importance of the hydroxyl group in position 3 in morphine?

Answer 5

Required for binding

Question 6

How is the structure of codeine different to morphine?

Answer 6

Codeine is 3-methyl morphine (methyl group instead of hydroxyl group in position 3)

Question 7

How is the structure of heroin different to morphine?

Answer 7

Heroin is 3,6-diacetyl morphine

Question 8

How do the structural differences of morphine and heroin affect the properties of heroin?

Answer 8

Oxiding the OH group at position 6 means that heroin is much more lipid soluble than morphine so it has much more profound effects on the brain

Question 9

What is a very important feature of methadone and fentanyl?

Answer 9

They are extremely lipid soluble

Question 10

Given that opioids are all WEAK BASES, in what state are they likely to be in:

a. The stomach
b. The small intestine

Answer 10

a. The stomach
IONISED – relatively little is absorbed

b. The small intestine
UNIONISED – more readily absorbed

Question 11

In what state will most opioids be in in the blood?

Answer 11

Blood has a pH of around 7.4 so the majority of opioids will be ionised in the blood - <20% of opioids will be unionised, and this is the component that can access tissues

Question 12

List morphine, fentanyl, methadone and heroin in order of decreasing lipid solubility.

Answer 12

Fentanyl
Methadone
Heroin
Morphine

Question 13

How is the metabolism of morphine different to the metabolism ofother opioids?

Answer 13

Morphine is metabolised in the liver and then excreted in the BILE

Question 14

What is the main, active metabolite that is produced from the metabolism of morphine?

Answer 14

Morphine-6-glucuronide

Question 15

What happens to the metabolite of morphine once it is excreted into the small intestine in the bile?

Answer 15

It undergoes enterohepatic cycling and returns to the blood where it can exert its effects

Question 16

Describe the rate of metabolism of fentanyl and methadone.

Answer 16

Fentanyl is metabolised rapidly (it can be broken down by cholinesterases in the blood)

Methadone is metabolised slowly so remains in the blood for longer

Question 17

What is a use of methadone that is based on its metabolism?

Answer 17

It is used to wean people off heroin and morphine – as methadone remains in the blood for longer, it can reduce cravings

Question 18

What percentage of codeine gets converted to morphine?

Answer 18

5-10%

Question 19

What are the two enzymes that are involved in codeine metabolism? State their relative rates of action.

Answer 19

CYP2D6 – activates codeine to morphine (O-dealkylation) - SLOW

CYP3A4 – deactivates codeine - FAST

Question 20

List some endogenous opioid peptides.

Answer 20

Endorphins
Enkephalins
Dynorphins/Neoendorphins

Question 21

Which opioid receptors do the following act on:

a. Endorphins
b. Enkephalins
c. Dynorphins

Answer 21

a. Endorphins Mu (μ)
or Delta (δ)
b. Enkephalins Delta (δ)
c. Dynorphins Kappa (K)

Question 22

What are endorphins involved in regulating?

Answer 22

Pain/Mood/CNS

Question 23

What are dynorphins involved in regulating?

Answer 23

Appetite (hypothalamus)

Question 24

Where in the brain are high concentrations of mu receptors found?

Answer 24

Amygdala
Nucleus Accumbens
Thalamus
Periaqueductal Grey matter

Question 25

All opiates are depressants. What are the THREE main mechanisms by which opiates have a depressive effect?

Answer 25

Hyperpolarisation (increased K+ efflux)

Reduce Ca2+ influx (affects neurotransmitter exocytosis)

Reduce adenylate cyclase activity (general reduction in cellular activity)

Question 26

What are the main effects of opioids?

Answer 26

Theraputic:
Analgesia
Euphoria
Depression of cough centre

Side effects:
Depression of respiratory centre 
Nausea/Vomiting  
Pupillary constriction  
GI effects

Question 27

Broadly speaking, what are the main methods of analgesia?

Answer 27

Increase pain tolerance

Decrease pain perception

Question 28

Describe the passage of pain information from the stimulus to the thalamus.

Answer 28

The painful stimulus is detected by a sensory neurone

This then synapses with a spinothalamic neurone in the dorsal horn, which then passes the information to the thalamus via spinothalamaic neurones

Question 29

What happens as the pain information reaches the thalamus?

Answer 29

The thalamus immediately activates the PAG (Peri aqueductal grey) - central pain coordinating region of the brain.

The thalamus also sends the pain information to the cortex, which processes the pain and modulates the firing of PAG

The way in which the cortex affects PAG firing is based on previous experiences, memories etc.

Question 30

What does the PAG do once it has received the input from the thalamus?

Answer 30

The PAG activates the nucleus raphe magnus (NRM)

Question 31

What is the role of NRM?

Answer 31

It sends descending inhibitory neurones down to the dorsal horn

The NRM is responsible for reducing painful sensation (pain tolerance)

Question 32

What does the NRPG do?

Answer 32

NRPG – nucleus reticularis paragigantocellularis

It is independent of the thalamus

As soon as you sense pain, the NRPG is activated, which then activates NRM

You’re trying to suppress pain even before the brain has had a chance to think about it

Question 33

Describe the role of the hypothalamus in this system.

Answer 33

The hypothalamus constantly feeds into the PAG about the general health of the organism

If fit and healthy the hypothalamus activates PAG

If unwell the hypothalamus inhibits PAG. This way the pain prevents the person from using up limited resources and forces them to rest

Question 34

Describe the role of the Locus Coeruleus in this system.

Answer 34

The locus coeruleus is the sympathetic outflow that has a negative effect on pain perception

A stress response will activate LC

Reason: at a time of stress, you wouldn’t want a painful stimulus to affect your fight or flight response

Question 35

What structure within the spinal cord acts like a ‘mini brain’?

Answer 35

Substantia gellatinosa

Some of the descending input from the NRM will be processed by the substantia gellatinosa, which then decides the level of inhibition necessary

Question 36

What are the main targets of opioids within this system?

Answer 36

Dorsal horn – increase inhibition

PAG – enhance PAG firing

NRPG – activates this

Question 37

What is the usual mechanism of action of opioids?

Answer 37

Inhibition of GABA neurones

Question 38

How do opioids cause euphoria?

Answer 38

Opioids bind to mu receptors on GABA neurones and switch them off

This removes the inhibitory effect of GABA neurones on the dopaminergic neurones projecting from the ventral tegmental area to the nucleus accumbens

–> increase in dopamine release at the nucleus accumbens

Question 39

Describe the central anti-tussive effect of opioids.

Answer 39

The 5HT1A receptor in the Dorsal Raphe Nucleus (DRN) is the negative feedback receptor for serotonin – firing of this receptor leads to suppression of serotonin, which leads to activation of the cough centre

Opioids desensitise the 5HT1A receptor so serotonin levels rise in the cough centre, which inhibits the motor neurones that connect the cough centre to the larynx

Question 40

What are the two main neurotransmitters released by sensory neurones going from the airways to activate the vagus?

Answer 40

Acetylcholine

Neurokinin

Question 41

Describe the peripheral anti-tussive effect of opioids.

Answer 41

Opioids stop the transmission of information from the sensory nerves (Ach/NK (neurokinin) C-fibres) to the vagus

Question 42

What is the most opioid sensitive aspect of respiration?

Answer 42

Rhythm generation

Question 43

Which part of the brain is responsible for rhythm generation?

Answer 43

Pre-Botzinger complex in the ventrolateral medulla

Question 44

Describe how opioids affect respiration.

Answer 44

Opioids inhibit the pre-Botzinger complex

They also depress the firing rate of central chemoreceptors, which interferes with the ability of the brain to control respiration

Question 45

How do opioids cause nausea/vomiting?

Answer 45

Opioids switch off GABA, which is normally suppressing the chemoreceptor trigger zone

This leads to activation of the chemoreceptor trigger zone, which then stimulates vomiting via the medullar vomiting centre

Question 46

Why do opioids cause pinpoint pupils?

Answer 46

The preganglionic parasympathetic nerve to the eye is the oculomotor nerve (CN III)

This begins in the Edinger-Westphal nucleus

There are lots of GABA neurones with mu opioid receptors within the Edinger-Westphal nucleus

The removal of the inhibitory GABA input stimulates firing of the oculomotor nerve – MIOSIS

Question 47

What are the effects of opioids on the GI tract?

Answer 47

Decrease gastric emptying

Decrease GI motility

Increase water reabsorption

CONSTIPATION

NOTE: this is due to the presence of opioid receptors on myenteric neurones

Question 48

Explain how opioids can cause, what looks like, an allergic response?

Answer 48

Opioids bind to mast cells in the skin and promote histamine release (skin mast cells appear to be particularly sensitive)

The hydroxyl group at position 6 appears to be vital to this

Question 49

What are some symptoms of histamine release?

Answer 49

Itching (pruritis)
Hives (urticarial)
Hypotension

Question 50

What does opioid tolerance tend to be due to?

Answer 50

Receptor internalisation at the tissue level

Question 51

Which proteins are important in receptor internalisation?

Answer 51

Arrestins - upregulated in opioid tolerance

Question 52

Describe opioid withdrawal.

Answer 52

Psychological craving

Physical withdrawal
resembling flu

Question 53

What is thought to be the cause of this powerful withdrawal?

Answer 53

One of the mechanisms of action of opioids is to reduce adenylate cyclase activity

With long-term use of opioids, the body attempts to compensate by upregulating adenylate cyclase

Stopping opioids will result in increased adenylate cyclase activity in tissues with no opiod counter effect –> shakes, headaches, sickness etc.

Question 54

What are some features of opioid overdose?

Answer 54

Coma
Respiratory depression
Pinpoint pupils
Hypotension

Question 55

What is the treatment for opioid overdose?

Answer 55

Naloxone (IV)

This is an opioid receptor antagonist

Question 56

Explain the effects of making the nitrogen quarternary in opioids.

Answer 56

Greatly decreases its analgesia

It cannot cross the blood brain barrier.

Question 57

What is strange about codeine’s liphophilicity:potency ratio?
What explains this?

Answer 57

Codeine is more lipid soluble than morphine yet is less potent.

Explained by the fact that only 10% of the codeine reaching the liver is metabolised to morphine, the other 90% is inactivated.

Question 58

How is the metabolism of heroin different to the metabolism of other opioids?

Answer 58

Heroin can be metabolised to morphine in the tissues

Question 59

What are enkephalins involved in regulating?

Answer 59

Motor/cognitive function