Adrenergics & Anti-adrenergics

Question 1

What are adrenergic drugs?

Answer 1

Sympathomimetic drugs – mimic the action of adrenaline or noradrenaline released by the nervous sytem

Question 2

What are the two structural types of direct adrenergic drugs?

Answer 2

Catecholamines (similar structure to endogenous adrenaline) and non-catechol

Question 3

What are the adrenergic receptors?

Answer 3

Alpha 1, 2 & Beta 1, 2 ,3

Question 4

What is an alpha-1 selective adrenoreceptor agonist?

Answer 4

Phenylephrine

Question 5

What is an alpha-2 selective adrenoreceptor agonist?

Answer 5

Brimonidine

Question 6

What is a non-selective alpha receptor agonist?

Answer 6

Oxymetazoline

Question 7

What is both an alpha 1 and beta 1 agonist?

Answer 7

Dopamine

Question 8

What is a beta-1 selective adrenoreceptor agonist??

Answer 8

Dobutamine

Question 9

What are two beta-2 selective adrenoreceptor agonists?

Answer 9

Salbutamol and Terbutaline

Question 10

What is a beta-3 selective adrenoreceptor agonist?

Answer 10

mirabergon

Question 11

What are two non-selective sympathomimetic drugs?

Answer 11

Epinephrine & norepinephrine

Question 12

Is it possible to have complete selectivity for beta receptors? Why?

Answer 12

No - the receptors are structurally similar, so selectivity is dose-dependent

Question 13

What is oxymetazoline used for and why?

Answer 13

Used topically to reduce mucus – causes vasoconstriction of nasal mucosa.

Has little systemic absorption so few side effects

Question 14

Can phenylephrine be taken orally?

Answer 14

Yes, due to its selectivity – unlikely to have unwanted adverse effects due to activation of other receptors

Question 15

Name the important receptors and the organs/functions they are specific to.

Answer 15

A2 receptors mediate secretions, B1 receptors mediate the heart and B2 receptors mediate the lungs

Question 16

Why is isoprenaline not really used now?

Answer 16

It is non-selective. When used to treat asthma by activating beta 2 receptors, it causes unwanted tachycardia by activating beta 1 receptors

Question 17

What is a drug used to treat urinary incontinence and what is its mechanism of action?

Answer 17

Mirabergon. It activates b3 receptors and causes bladder relaxation

Question 18

What is dopamine used for and why?

Answer 18

Severe heart failure. Acts on alpha 1 receptors to cause peripheral vasoconstriction, shunting blood to the important organs. Acts on b1 receptors to stimulate the heart.

Question 19

What is an adrenoreceptor agonist used to treat glaucoma?

Answer 19

Brimonidine. It is a selective a2 receptor activator. It induces vasoconstriction in the eye and reduces secretion of intraocular fluid, decreasing intraocular pressure. It also has a cytoprotective effect in the eye, slowing death of the retinal ganglia.

Question 20

What are two drugs used for asthma and their MOA?

Answer 20

Salbutamol and terbutaline – by causing bronchodilation

Question 21

What is the difference between salbutamol and terbutaline?

Answer 21

Salbutamol has a catechol structure while terbutaline does not – salbutamol thus has a short half life

Question 22

Explain the idea of reflexive bradycardia:

Answer 22

When there is too much beta 1 stimulation, heart is too stimulated and blood pressure increases too quickly. This leads to a reflexive slowing down of the heart by the body

Question 23

Indirect agonist adrenergic drugs act indirectly by….

Answer 23

increasing the extracellular levels of endogenous catecholamines

Question 24

Explain the storage of noradrenaline

Answer 24

Stored in vesicles and replenished by the vesicular uptake of newly synthesized NA. It is also recycled by re-uptake via presynaptic uptake 1

Question 25

Explain monoamine oxidases and their function

Answer 25

They are enzymes that catabolise catecholamines to aldehydes.

Found on the mitochondrial surface, mainly in nerve terminals, liver and intestines.
Has MAOA - breaks down NA - and MAOB - breaks down dopamine

Question 26

Explain catechol - O - methyltransferase (COMT)

Answer 26

It is found in all tissues, and breaks down most catecholamines and by-products of MAO to methoxy derivatives

Question 27

What are the three mechanisms of indirect adrenergic drugs (no need to go into detail)

Answer 27

1. Inhibiting the breakdown of catecholamines
2. Blocking presynaptic uptake 1
3. Displacing endogenous NA from vesicles

Question 28

Explain the mechanism of inhibition of the breakdown of catecholamines, as well as an example of an inhibitor.

Answer 28

Works by inhibiting monoamine oxidases – thus preventing the breaking down of the catecholamines –> increases availability.

An example is moclobemide –> used as an anti-depressant as it crosses the BBB to work on the CNS. The resultant increase in availability of catecholamines helps improve mood.

Question 29

What are the adverse effects of indirect adrenergic activators?

Answer 29

Adverse effects: increases HR, chronotropic (increases hr and rhythm) and inotropic (increases force of heartbeat). Also causes GI slowing and constipation.

Basically overstimulation of the sympathetic system

Question 30

Explain the mechanism of blocking presynaptic uptake 1, and an example.

Answer 30

By blocking the presynaptic uptake 1, synaptic availability of NE is increased. However, it doesn’t increase availability of epinephrine bc the affinity of uptake is much greater for NE. This also has mood-enhancing effects – mainly used as anti-depressants.

An example is tricyclic antidepressants.

Question 31

Explain the mechanism of displacement of endogenous NE, and two examples.

Answer 31

The drugs are taken into synaptic terminals, where they compete with NE for vesicles. This reduces the amount of NE that can be stored, increasing availability.

They also compete for MAO, preventing breakdown of catecholamines.

Two examples are ephedrine and pseudoephedrine

Question 32

What are anti-adrenergic drugs?

Answer 32

Drugs that block the action of NE or epinephrine

Question 33

What is an adrenoreceptor antagonist used as an anti-arrhythmic agent? What is its MOA?

Answer 33

Sotalol

It prolongs cardiac action potential duration.

Question 34

Why are there no beta 3 antagonists?

Answer 34

Beta 3 mediates urinary continence and lipolysis,

Question 35

What is phenoxybenzamine used for?

Answer 35

It is an irreversible, non-selective alpha adrenoreceptor antagonist.

used to treat the symptoms of pheochromocytomas (which produces excess NE and epinephrine). It covalently binds to provide a 14-48h block

it also has actions on histamine, acetylcholine and serotonin receptors

Question 36

What are the adverse effects of alpha adrenoreceptor antagonists?

Answer 36

Postural hypotension and reflex tachycardia (due to blood pooling in the peripheries)

Nasal congestion

Inhibition of ejaculation and drowsiness (CNS effects)

Question 37

What do the alpha-1 antagonists and what are they used to treat?

Answer 37

Prazosin, azosin. They are used to treat hypertension by blocking vasoconstriction.

They are also used to treat benign prostatic hyperplasia, by relaxing the bladder and inhibiting urination.

Question 38

What are some beta-blockers/beta adrenoreceptor antagonists?

Answer 38

Non-selective: propanolol, sotalol and timolol

beta 1 selective (somewhat): atenolol and betaxolol

Question 39

What is propanolol used for?

Answer 39

It is a non-selective beta blocker.

Quite general. Used for hypertension, agina, arrythmias, excessive catecholamine action, and hyperthyroidism.

To note: it has local anaesthetic effects

Question 40

Explain how b1 antagonism is anti-hypertensive

Answer 40

Blocks renin secretion

Question 41

What are some adverse effects of non-selective beta-blockers?

Answer 41

Bronchoconstriction (no go if has asthma), heart failure

Question 42

What is timolol used for and why?

Answer 42

Used to treat glaucoma. Reduces secretion of intraocular fluid so decreased IOP.

Has no local anaesthetic effects so doesn’t affect blinking (blinking affects the clearance of the fluid and thus increases IOP).

Topical application of timolol ensures fewer systemic effects

Question 43

What is atenolol used for?

Answer 43

Mainly cardiac: hypertension, angina, MI.

Has local anaesthetic effects and so cannot be administered topically

Question 44

What is betaxolol used for?

Answer 44

Honestly q similar to timolol. For glaucoma, no local anaesthetic action.

Topical application so few systemic effects

Has some B2 antagonism so cannot use for asthmatic patients

Question 45

What are the two mechanisms of indirect antiadrenergic agents?

Answer 45

Agonists at presynaptic uptake receptors

Decreasing NE synthesis

Question 46

Explain agonists at presynaptic uptake receptors, with examples.

Answer 46

Presynaptic alpha 2 adrenoreceptors are involved in feedback inhibition of NE release

Agonists decrease NE release. This results in reduced visceral vasoconstriction and CNS sedation – hypotension

For eg. dexmedetomidine as a sedative –> hypotension and dry mouth

Question 47

Explain the mechanism of decreasing NE synthesis, with examples.

Answer 47

For example, methyldopa.

It mimics L-DOPA, which is an alpha 2 adrenergic angonist.

It thus inhibits tyrosine hydroxylase, which is essential in the rate-limiting step in catecholamine synthesis.

Used to treat hypertension.

Question 48

What are possible side effects of methyldopa?

Answer 48

Haemolytic anaemia

Can cause hepatotoxicity. Contraindicated if past history of methyldopa-induced liver dysfunction)