Opioids

Question 1

what is an opiate?

Answer 1

natural alkaloid derived from the papaver samniferum plant

Question 2

examples of opiates

Answer 2

morphine
codeine
papaverine
thebaine

Question 3

what are opioids?

Answer 3

these are synthetic molecules that mimic natural opiate activity

Question 4

what is the function of the tertiary nitrogen of morphine? what is the effect of a quaternary nitrogen?

Answer 4

important for the analgesic effect
helps anchor morphine to opioid receptor
a quaternary nitrogen decreases the analgesic effect greatly

Question 5

how can morphine become an antagonist?

Answer 5

extension of the side chain to 3+ carbons

changing side chains to methyl groups (this also decreases the analgesic effect)

Question 6

how does the structure of morphine compare to codeine and heroin?

Answer 6

• The hydroxyl group at position 3 (required for binding) Codeine undergoes metabolism to become activated and reveal its hydroxyl
• The hydroxyl group at position 6 – when in oxidised form, the lipophilicity of the drug increases 10-fold

heroin is a diacetyl morphine
codeine is a methyl codeine

Question 7

how does the lipid solubility of heroin compare to morphine?

Answer 7

much higher

Question 8

what type of drug is codeine?

Answer 8

a prodrug

Question 9

how do the structures of methadone and fentanyl compare to morphine?

Answer 9

o Methadone – tertiary nitrogen.
o Fentanyl – 2x tertiary nitrogen’s

therefore great analgesic effects

Question 10

what are the important structures required for opiate activity?

Answer 10

aromatic ring base
tertiary nitrogen
spacer
quaternary carbon centre

Question 11

how are opioids generally administered?

Answer 11

oral

IV

Question 12

how well are opioids absorbed in the stomach?

Answer 12

not well due to pKa> pH so predominantly in ionised state

absorption is better further down the GIT

Question 13

what is the pKa of opioids?

Answer 13

weak bases pKa>8

Question 14

what is the order in potency of the opioids from least potent to most potent?

Answer 14

codeine< morphine< heroine< methadone< fentanyl

Question 15

what is the order of lipid solubility of the opioids from least soluble to most soluble?

Answer 15

morphine< codeine< heroine< methadone< fentanyl

not the same as for potency

Question 16

what is the relationship between lipid solubility and potency?

Answer 16

the more lipid soluble, the greater the potency

Question 17

what are is an example of an active metabolite created from morphine? what effects does it have and what effect does it fortunately not have?

Answer 17

Morphine-6-glucuronide (M6G)
creates euphoria
does not lead to cardio-respiratory failure

Question 18

what receptor does morphine have an affinity to?

Answer 18

Mu

Question 19

what are the active metabolites of fentanyl and methadone?

Answer 19

sike!

they don’t have active metabolites

Question 20

which drugs produce morphine as an active metabolite?

Answer 20

heroin and codeine

Question 21

what mediates metabolism of fentanyl and at what rate?

Answer 21

fast metabolism by CYP3A4

Question 22

what mediates methadone metabolism and at what rate?

Answer 22

slow metabolism by six CYP enzymes

Question 23

why does codeine have a low potency?

Answer 23

only 5-10% of codeine is metabolised to produce morphine

there is the involvement of slow (activating) and fast (inactivating) acting enzymes

Question 24

what are the enzymes involved in codeine metabolism and what are their products? what is the rate of each enzyme?

Answer 24

CYP2D6- slow therefore activating- produces the low proportion of morphine

CYP3A4- fast therefore inactivating- produces the inactive normorphine metabolite.

ie. slow metabolism of codeine produced the active metabolite morphine
i. e. fast metabolism of codeine produced the inactive metabolite normorphine

Question 25

why may some people not respond to codeine?

Answer 25

CYP-2D6 (O-dealkylation) can have a polymorphism so don’t respond to codeine

this is the slow metaboliser of codeine that produces the active morphine metabolite

Question 26

what are most opioids metabolised by?

Answer 26

CYP-2D6 (slow) and CYP-3A4 in the liver.

Question 27

what are the endogenous molecules that bind to opioid receptors?

Answer 27

Endorphins
Enkephalins
Dynorphins/Neoendorphins.

Question 28

what are the opioid receptors?

Answer 28

Mu
Delta
Kappa

Question 29

which endogenous molecule binds to Mu and what body functions does it affect?

Answer 29

endorphins (binds to delta also) 
pain/sensorimotor 
- pain
- mood
- CVS

Question 30

what parts of the brain have Mu receptors?

Answer 30

thalamus
amygdala
nucleus accumbens
PAG (periaqueductal grey matter)

Question 31

what endogenous molecule binds to Delta and what body functions does it affect?

Answer 31

enkephalins 
(endorphins can bind to) 
motor cognitive function 
- Pain
- mood
- CVS

Question 32

what parts of the brain have Delta receptors?

Answer 32

nucleus accumbens
cerebral cortex
amygdala

Question 33

what endogenous molecule binds to Kappa and what bodily functions does it affect?

Answer 33

dynorphins
neuroendocrine
- appetite

Question 34

what part of brain have Kappa receptors?

Answer 34

hypothalamus

Question 35

what is the main action of opiate receptors?

Answer 35

depressant

Question 36

what are the 3 mechanisms of the depressant action of opioid receptors?

Answer 36

o Hyperpolarisation
 – increase potassium efflux.
o Reduce Ca2+ influx
 – for NT exocytosis.
o Reduce Adenylate Cyclase activity 
– for general cell activity.

Question 37

what are the effects of opioids?

Answer 37

o	Analgesia.
o	Euphoria.
o	Anti-tussive.
o	Respiratory depression (at medulla) 
o	Stimulation of CTZ (Chemoreceptor Trigger Zone) – nausea/vomiting.
o	Pupillary constriction and GI effects.

Question 38

how is the analgesic effect of opioids mediated?

Answer 38

o Decreased pain perception.
o Increased pain tolerance.

receptors in the pain perception and tolerance pathway are targeted by opioids

Question 39

what is the pain perception pathway from the periphery?

Answer 39

Sensory via nociceptors from the periphery into the thalamus via the spinothalamic tract.
Thalamus distributes the signals to the extra-cortical regions
Cortical inputs activate the PAG (co-ordinates pain).

Question 40

what is the pain tolerance pathway from the Periaqueductal grey?

Answer 40

PAG (the integrating centre for pain tolerance) activates the NRM
- PAG can be activated by thalamus too before the cortex “thinks about” the pain and processes it

NRM (Nucleus Raphe Magnus) increases pain tolerance.
- sends inhibitory descending signals to the dorsal horn (spinal cord)

Question 41

where else does NRM get its inputs from apart from PAG?

Answer 41

NPRG (Nucleus Reticularis Paragigantocellularis)
o The negative-feedback centre of the brain.
o Independent of the thalamus.

Question 42

what is the function of the NRPG?

Answer 42

automatically supresses pain before the brain has had a chance to process it.

the feedback centre involved in pain tolerance

Question 43

what is the cortex’s influence (inputs) to PAG?

Answer 43

memories etc

Question 44

what does greater PAG stimulation mean?

Answer 44

greater pain tolerance

Question 45

what is the the role of the hypothalamus in pain perception?

Answer 45

Constantly signals PAG independent of pain sensation. This updates it with the current health status

Question 46

what is the role of the Locus Coeruleus (LC) in pain perception?

Answer 46

provides the spinal cord with SNS outflow which is activated in response to stress so the pain response does not interfere with fight or flight.
Hence an injury is worse after an event than during

Question 47

how can the spinal cord modulate pain tolerance?

Answer 47

some inhibitory input from the NRM enters the substantia gelatinosa in the spinal cord
(other inputs go directly into decreasing pain)

the SG can modulate/determine level of inhibition necessary on the sensory neurones from the NRM

Question 48

which receptors mediate the analgesic effect the most?

Answer 48

Mu

Question 49

what are the main targets of opioids (pain perception and tolerance pathways)?

Answer 49

o Dorsal horn and periphery – increase inhibition (substantia gelatinosa)
o PAG – enhance firing into NRM
o NRPG – enhances firing into NRM

Question 50

what do opioids do at their targets?

Answer 50

switch off GABA

Question 51

what does GABA normally do in the pain tolerance pathway? what is the effect of switching it off?

Answer 51

has an inhibitory effect on many of the pain tolerance centres so blocking GABA activates the pain tolerance centres.

Question 52

how do opioids create euphoria?

Answer 52

• Opiates bind to the Mu receptor on GABA neurones
• decrease GABA exocytosis.
• reduces the inhibition on the VTA
• more DA is released.

Question 53

how can opioids suppress coughing centrally? 2 methods

Answer 53

1) act as 5HT1A-receptor antagonist

2) direct depression at the medulla

Question 54

how can opioids suppress coughing peripherally?

Answer 54

ACh and NK (Neurokinin) release inhibition so less transmission down the sensory nerves to the vagus afferents

Question 55

how can opioids leads to respiratory depression?

Answer 55

• Depression of the Pre-Botzinger complex in the ventrolateral medulla
• Central chemoreceptors are inhibited, so depress the firing rate of the central chemoreceptors.

Question 56

what does the Pre-Botzinger complex do and what is the effect of its depression?

Answer 56

generates respiratory rhythm so less rhythm with depression

Question 57

how does antagonising 5HT1a receptors suppress cough?

Answer 57

• 5HT1A-receptor is a negative feedback receptor for serotonin
• Firing leads to suppression of serotonin and activation of the cough reflex.

Question 58

how do opioids lead to nausea and vomiting at low doses?

Answer 58

opioids activate Mu receptors in the CTZ (Chemoreceptor Trigger Zone) and stimulate vomiting

disinhibition switches off GABA

Question 59

how do opioids cause miosis (pupillary constriction) at high doses?

Answer 59

Activation of the Mu receptors causes a dis-inhibitory effect by decreasing GABA secretion and thus stimulates the pupil constriction in the Edinger-Westphal nucleus.

Question 60

how does the effect of high dose opioids on the eye differ to other drug overdoses?

Answer 60

Most overdoses exhibit dilated pupils (mydriasis) as the decreased brain function reduces the level of constriction but opiates cause “pin-prick” eyes

Question 61

where do opioids bind in the GIT?

Answer 61

opioid receptors (kappa and Mu) are found in the myenteric plexus.

Question 62

what do motor neurones in the GIT release and what effect do they have on smooth muscle?

Answer 62

release Ach or substance P to contract SM
release VIP (vasoactive intestinal peptide) or NO to relax SM

Question 63

what effects do opioids have on the GIT?

Answer 63

• Decrease in gastric emptying
• Decreased GI motility.
• Increase in water reabsorption.
• constipation

“SNS” like effect

Question 64

what is urticaria?

Answer 64

local inflammation caused by histamine release from mast cells under the skin

Question 65

how may some opioids cause urticaria? how can this be avoided?

Answer 65

hydroxyl group found on some opioids that cause mast cell degranulation (non-IgE-mediated) [like cannabis can]

You can switch people to different opioids if they display this response (one without the OH group)

Question 66

what is the difference in urticaria as an effect of opioids compared to the other effects mentioned?

Answer 66

reaction is PKA mediated i.e. the opioids themselves (not receptor-mediated)

Question 67

how does chronic usage of opioids induce tissue tolerance?

Answer 67

• Opioids upregulate levels of arrestin
• Arrestin promotes receptor internalisation
• Over-internalisation of receptors means the tissue becomes less receptive to opioids and so becomes tissue tolerant

Question 68

what is the role of arrestin?

Answer 68

Arrestin promotes receptor internalisation

Question 69

what is withdrawal of opioids associated with?

Answer 69

o Psychological craving.

o Physical withdrawal (resembling the flu)

Question 70

how do withdrawal symptoms arise (AC)?

Answer 70

• Opioids normally depress cell activity by reducing AC activity
• Body responds by upregulating AC activity
• When the drug is removed the body is overstimulating AC
• General cell activity is greatly increased causing withdrawal

Question 71

what are the features of an opioid overdose?

Answer 71

o Coma.
o Respiratory depression.
o Pin-point pupils.
o Hypotension (due to histamine release).

Question 72

what is the treatment for overdose?

Answer 72

I.V. Naloxone (opioid antagonist)

Question 73

how does naloxone’s structure enable it to work?

Answer 73

• Naloxone has a tertiary nitrogen, so can bind to the opioid receptors
• has a LONG side chain of carbons therefore has ANTAGONISTIC properties when bound

Question 74

describe Heroin

Answer 74

• agonist drug IV injected
• travels to brain and binds to opioid receptor
• heroine is lipophilic therefore can cross BBB

Question 75

why would heroin have greater selectivity to its receptors than alcohol? how does this impact side effects?

Answer 75

• heroine has more functional groups
• more complex in structure
• therefore greater selectivity
• fewer side effects

Question 76

how is tolerance to e.g. heroin, induced?

Answer 76

• loss of receptors
• change in receptors
• loss in sensitivity
• change in internal mechanisms
• exhaustion of stores

Question 77

how do the opioid agonists heroin and fentanyl cause different effect?

• heroine–> euphoria
• fentanyl–> unconciousness and respiratory depression

Answer 77

• Fentanyl is much more potent
• shifts the dose-response relationship to the left
• thus a much smaller dose is required to produce a euphoric effect.

Question 78

what would be given to restore consciousness when fentanyl was taken?

Answer 78

naloxone

- opioid antagonist blocks receptors without efficacy itself

Question 79

what are the principle types of drug antagonism?

Answer 79

• receptor blockage (e.g. antihistamine) is physiological
• chemical (anti-venom)
• pharmacokinetic (increased drug metabolism)

Question 80

what is affinity and efficacy? how is this related to potency?

Answer 80

• affinity= ability of a molecule to bind to the receptor site
• efficacy= how much of an effect the drug will have once bound to the system

potency= affinity + efficacy

Question 81

why would buprenorphine be given to ween someone off methadone?

Answer 81

methadone is a full agonist
buprenorphine is a partial agonist

you can’t OD on buprenorphine so same high is not achieved

the DR curve is suppressed and shifted right (more needed)

Question 82

what drug activity does naloxone show?

Answer 82

antagonist

Question 83

what drug activity does buprenorphine show?

Answer 83

partial agonist

Question 84

what drug activity does methadone show?

Answer 84

full agonist

Question 85

how well absorbed are opiates in the stomach and intestine?

Answer 85

as weak bases (pKa>8)

• in the stomach (pH low): more ionised, poorly absorbed
• in intestine (pH high): more unionised, well absorbed

Question 86

why does IV administration only allow a small amount of heroin to get into tissue?

Answer 86

mostly ionised in the blood so little gets in

Question 87

why does heroin have a more profound effect on the brain than morphine?

think about the structures of the molecules

Answer 87

heroine contains acetyl groups rather than hydroxyl groups like morphine

the acetyl groups make heroin more lipophilic so it is crossed into the brain better than morphine

Question 88

where are opiates metabolised and excreted?

Answer 88

metabolised in the liver

excreted into bile

Question 89

what is arrestin? what effect do opioids have on it?

Answer 89

opioids upregulate arrestin

this causes the increased ability for Mu receptor internalisation

Question 90

what effect does mu receptor internalisation have?

Answer 90

tolerance

caused by arrestin activity due to long term opioid use

Question 91

what are the mild side effects of opioids?

Answer 91

• nausea
• miosis (constriction, unlike many other ODs)
• constipation
• pruritus (itching) and urticaria (rash)

Question 92

why do opioids cause nausea?

Answer 92

• decreased GABA release to CTZ
• stimulation of CTZ
• nausea

Question 93

why do opioids cause miosis?

Answer 93

• decreased GABA release to Edinger Westphal nucleus
• increased oculomotor nerve firing
• pupil constriction

Question 94

why do opioids cause constipation?

Answer 94

• binding to Mu and Kappa receptors located in GIT
• on myenteric neurones
• leads to reduced gut motility

Question 95

why do opioids cause pruritus and urticaria?

Answer 95

stimulation of mast cell degranulation

Question 96

what is the severe side effect of opioids?

Answer 96

Respiratory depression

Question 97

why do opioids cause resp depression?

Answer 97

• inhibition of pre-Botzinger complex
• found in the ventrolateral medulla
• responsible for generating the respiratory rhythm

Question 98

where is the substantia gelatinosa located?

Answer 98

in the spinal cord (dorsal horn)

Question 99

what sends inhibitory signals to the sub gelatinosa to reduce pain sensation?

Answer 99

nucleus raphe magnus (receives inputs from NRPG and PAG)