Adrenergic transmission

Question 1

Adrenergic receptors

-classification

Answer 1

-G protein coupled receptor, catecholamines bind to it

Question 2

Adrenergic receptors

-types

Answer 2

1. Alpha 1
2. Alpha 2
3. Beta 1
4. Beta 2
5. Beta 3
6. Dopamine

LOOK AT TABLE IN THE SUMMARY

Question 3

Presynaptic regulation

• alpha 2 receptors
• beta 2 receptors

Answer 3

• Alpha 2 receptors: decrease further release of adrenaline

- Beta 2 receptors: facilitate the release of adrenaline

Question 4

Main effects of adreno-receptors

Answer 4

LOOK AT TABLE IN THE SUMMARY

Question 5

Noradrenergic junction (9)

Answer 5

1. Tyrosine is transported into the noradrenergic ending by sodium-dependent carrier
2. Tyrosine is converted into Dopamine by tyrosine hydroxylase
3. Dopamine is transported into the vesicle by VMAT (inhibited by reserpine)
4. Dopamine is converted to norepinephrine by dopamine-b- hydroxylase
5. Release of transmitter
6. Voltage-sensitive Ca2+ channels open
7. Increase intracellular calcium
8. Vesicle fuses with the membrane (inhibited by bretylium)
9. Norepinephrine diffuses out or it is transported into the cytoplasma of the terminal by NET or uptake 2

Question 6

Which adrenoreceptors does norepinephrine and epinephrine activate?

Answer 6

Norepinephrine –> alpha 1, alpha 2 and beta 1

Epinephrine –> ALL

Question 7

Noradrenaline transport system (3)

Answer 7

1. Vesicular monoamine transporter (VMAT) –> synaptic vesicle membrane, NA=A=ISO
2. Uptake 1 (NET) –> neuronal membrane, NA>A>ISO
3. Uptake 2 –> non-neuronal cell membrane, A>NA>ISO

Question 8

Adrenergic drugs - agonists

-classification

Answer 8

Direct acting

1. Alpha: nonselective (norepinephrine), alpha 1 selective (pheylephrine), alpha 2 selective (clonidine)
2. Beta: nonselective (isoproterenol), beta 1 selective (dobutamine), beta 2 selective (albuterol)

Indirect acting

1. Releasers (amphetamine)
2. Reuptake inhibitors (cocaine)

Question 9

Effects of adrenaline (6)

Answer 9

• it is not selective, it has a balanced effect to all adreno receptors
• increases heart rate
• slightly decrease peripheral resistance
• Beta 1 –> causes tachycardia
• Beta 2 –> causes vasodilation
• Systolic pressure would be elevated due to alpha 1 and alpha 2 (leads to vasoconstriction)

Question 10

Effects of noradrenaline (6)

Answer 10

• high potency to alpha receptors
• increase blood pressure
• increase peripheral resistance
• decreases permeability of blood vessels
• Decreased heart rate –> baroreceptors are activated
• Increases systolic and diastolic blood pressure

Question 11

Effects of isoproterenol (5)

Answer 11

• tends equally on beta 1 and beta 2
• By action on Beta 2 –> causes vasodilation on muscles
• By action on Beta 1 –> tachycardia
• No effect on systolic
• Slight decrease in diastolic –> because main effect of this drug on blood vessels is on muscle via beta 2

Question 12

Dopamine (5)

Answer 12

• used in acute heart failure, hypotensive shock
• activates alpha, beta and dopamine receptors in an independent manner
• low doses –> dopamine receptors
• higher doses –> b1 receptors
• even higher doses –> alpha 1 receptors

Question 13

• Clinical uses of adrenaline (5)
• Unwanted effects
• Contraindications

Answer 13

• cardiac arrest
• anaphylatic shock
• to reduce local bleeding
• to prolong local anaesthetics action
• angina pectoris, cerebral hemorrhages, arrhythmia
• non selective b-adrenoreceptors antagonist users

Question 14

Alpha 1 adrenoreceptors agonists

1. Names
2. Clinical use
3. Unwanted effects
4. Contraindications

Answer 14

1. Pseudoephedrine, xylometazoline
2. hypotension, nasal decongestion, to cause mydriasis, shock
3. hypertension, arrhythmia, headache
4. close-angle glaucome, severe hypertension

Question 15

Alpha 2 adrenoreceptors agonists

1. Names
2. Clinical use
3. Unwanted effects
4. Contraindications

Answer 15

1. Clonidine, Methyldopa
2. in the CNS it inhibit sympathetic nervous system output and lower BP (clonidine), glaucoma, withdrawl in addicts, hypertension (in pregnancy methyldopa)
3. sedation, bradycardia, sexual dysfunction
4. depression, bradycardia, ischemic heart disease

Question 16

Beta 1 adrenoreceptors agonists

1. Names
2. Clinical use
3. Unwanted effects
4. Contraindications

Answer 16

1. Dobutamine
2. cardiogenic shock, acute heart failure, after heart surgery
3. tachycardia, arrhythmia, increase of myocardial damage
4. hypertension, narrowing of aortic heart valve, atrial fibrillation

Question 17

Beta 2 adrenoreceptors agonists

1. Names
2. Clinical use
3. Unwanted effects
4. Contraindications

Answer 17

1. Salbutamol
2. asthma, chronic obstructive pulmonary disease, premature labor
3. tachycardia, arrhythmia, tremor, hypotension
4. recent myocardial infarction, coronary heart disease, hypertension

Question 18

Ephedrine and Pseudoephedrine (4)

Answer 18

• mixed action agonists
• cause activation of adrenergic receptors by direct binding and release of stored NE from pre synaptic terminals
• Ephedrine: vasoconstriction, bronchodilation
• Pseudoephedrine: vasoconstriction, bronchodilation, decrease mucus production

Question 19

Amphetamine (4)

Answer 19

• treatment of attention-deficit/hyperactivity disorders (ADHD)
• stimulate CNS
• it binds to transporter proteins for amines, enters the neurons and disrupts the storage of monoamines in synaptic vesicles.
• it is able to cause the monoamine transporter proteins to run in reverse, increases the release of monoamines (dopamine and NE) in the synaptic cleft

Question 20

Adrenoreceptors antagonists t

-classification

Answer 20

• alpha and beta blockers
• can be either selective or non-selective

Alpha
Alpha 1 selective - prazosin
Alpha 2 selective - yohimbine
nonselective - irreversible (phenoxybenzamine) or reversible (phentolamine)

Beta 
Nonselective (propanolol)
Beta 1 selective (atenolol)
Beta 2 selective (butoxamine)

Question 21

Alpha adrenoreceptors antagonists: non selective, a1, a2

1. Names
2. Clinical use
3. Unwanted effects
4. Contraindications

Answer 21

1. Prazosin (a1 selective), Doxazosin (a1 selective), Tamsulosin (a1 selective), Yohimbine (a2 selective)
2. severe hypertension, benign prostatic hypertrophy
3. hypotension, tachycardia, nasal congestion, impotence, failure to ejaculate
4. intra-operative floppy iris syndrome, painful erection

Question 22

B- adrenoreceptors antagonists

1. Names
2. Clinical use
3. Unwanted effects

Answer 22

1. Timolol, propranolol, metoprolol, labetalol, nebivolol
2. glaucoma, anxiety, migrane, angina, heart failure, hypertension
3. bronchoconstriction, bradycardia, fatigue, hypoglycemia, cardiac depression

Question 23

Drugs used in open angle glaucoma (2)

Answer 23

Pilocarpine –> ciliary muscle contraction, opening of trabecular meshwork, increased outflow

Beta blockers - timolol –> decreased aqueous secretion from the ciliary epithelium

Question 24

Beta blockers (4)

Answer 24

1. Propranolol: non selective –> beta 1 and beta 2 antagonism
2. Metoprolol: beta 1 selective blockers
3. Labetolol: mixed antagonist for beta and alpha 1, non selective for beta 1 and beta 2 antagonism, ISA
4. Nebivolol: beta 1 selective blocker

Question 25

Intrinsic sympathomimetic activity (ISA) (5)

Answer 25

• Both agonism and antagonism at a given b receptor
• Labetalol –> exhibit ISA
• not used after myocardial infarction, may also be less effective in the management of angina and tacharrhythmia
• it depends on the concentration of beta blocker and concentration of the antagonized agent
• Very low amount of noradrenaline –> when the drug binds –> it has agonist activity
• If the amount of norepinephrine increases –> the drug function will change –> it will have antagonist activity

Question 26

How does the sympathetic system affects…?

1. Brain
2. Eyes
3. Respiratory system
4. Heart
5. GI
6. Bladder
7. Immune system

Answer 26

1. do not remember anything –> degeneration of cholinergic centers
2. pupils dilate in order to see things better
3. bronchodilation, stop secretion of respiratory system –> we need more O2
4. BP increases
5. shut down, sphincter is constricted but the rest is relaxed
6. relaxed but sphincters are constricted
7. shut down, because it is an energy demanding system

Question 27

Clonidine

-what is it used for? (6)

Answer 27

1. treat high blood pressure
2. attention deficit
3. hyperactivity disorder,
4. drug withdrawal,
5. menopausal flushing,
6. diarrhea

Question 28

Adrenergic vs. cholinergic neurons

Answer 28

Cholinergic –> acetlycholine is metabolized by acetylcholinesterase

Adrenergic –> noradrenaline is uptaken, there are NO enzymes to degrade it

Question 29

What happens in the eye by action of ….?

1. alpha 1
2. alpha 2
3. beta 2

Answer 29

1. stimulatory effect –> contraction of iris radial muscle –> dilation of pupils
2. decrease aqueous humor formation and increase uveoscleral outflow
3. increase aqueous humor formation and decrease uveoscleral outflow