Adrenergic Agonists - Trachte

Question 1

What are the steps in norepinephrine synthesis?

Answer 1

• Tyrosine →
  
  • cytosol
• DOPA →
  
  • cytosol
• Dopamine →
  
  • leaves cytosol
• Norepinephrine →
  
  • vesicular
• Epinephrine
  
  • in adrenal medulla

Question 2

What enzyme is the rate limiting step in the synthesis of adrenergic amines?

Answer 2

• Tyrosine hydroxylase
  
  • cystolic
  • converts Tyrosine → DOPA
  • blocked by Metyrosine

Question 3

Where are adrenergic amines stored?

Answer 3

in granules with ATP-protein complex

Question 4

What are the steps in the normal release of Adrenergic amines?

Answer 4

• Stimulation of nicotinic receptors on post-synaptic surface of the post-ganglionic nerve
• Depolarization (Na influx) and Ca influx
• Release of dopamine beta-hydroxylase, norepinephrine and ATP
• Norepinephrine inhibits its own release (alpha-2 receptors)

Question 5

What neurotransmitter does the sympathetic preganglionic nerve release?

Answer 5

ACh

Question 6

What kind of receptor on the sympathetic postganglionic cell body receives the neurotransmitter from the preganglionic?

Answer 6

Nicotinic Receptor

(via Na+ channel)

Question 7

Once activated, what does a sympathetic postganglionic neuron release at its nerve terminal?

Answer 7

Norepinephrine

Question 8

What receptor does NE interact with on the heart? Lungs?

Answer 8

• Heart = Beta-1
  
  • only have one heart
• Lungs = Beta-2, Alpha-1
  
  • have 2 lungs, thus Beta-2

Question 9

If ACh is released on the adrenal gland, what receptor does it act on?

Answer 9

Nicotinic

Question 10

What does the adrenal gland release in response to activation after receiving ACh?

Answer 10

NE & Epi

Question 11

What happens in response to NE acting on Beta-1 receptors?

Answer 11

Increase HR, increase SV

Question 12

What happens in response to NE acting on alpha-1 receptors?

Answer 12

Vasoconstriction, increased resistance

Question 13

How is NE eliminated?

Answer 13

Axoplasmic pump transports NE back into synaptic terminal

Question 14

What drugs act on the axoplasmic pump that brings NE back into the synaptic terminal?

Answer 14

• Cocaine
  
  • stops reuptake of NE
  • potentiate sympathetic responses
• Amphetamine
  
  • reverse pump → spit out more NE
  • increases BP
• Tricyclic antidepressents
  
  • inhibits axoplasmic pump

Question 15

What is the MOA of Reserpine (one of the first bp meds)?

Answer 15

• Inhibits the granular pump accumulating catecholamines in vesicles
  
  • results in depletion of catecholamines (NE)
  • also deplete serotonin, dopamine, and NE in brain = nasty side effects
    
    • not used anymore

Question 16

What two enzymes degrade adrenergic amines?

Answer 16

• COMT (catechole-O-methyl transferase)
  
  • cytoplasm
• MAO (monoamine oxidase)
  
  • mitochondria

Question 17

What MAO inhibitor can potentiate the action of catecholamines and consequently lead to hypertensive crisis?

Answer 17

Pargyline

Question 18

What compound found in cheese, wine, and beer releases catecholamines and is normally degraded by MAO?

Answer 18

Tyramine

(why patients on MAO inhibitors need to avoid these foods → can become hypertensive crisis → give alpha-1 blocker to treat)

Question 19

What happens with activation of Beta-1 receptors?

Answer 19

• G-protein coupled receptor
  
  • 7 transmembrane protein
• Adrenergic cardiac effects
  
  • increase HR
  • increase SV
  • increase BP

Question 20

What activates Beta-1 receptors?

Answer 20

isoproterenol > epinephrine = norepinephrine

Question 21

What activates Beta-2 receptors?

Answer 21

isoproterenol > epinephrine >> norepinephrine

Question 22

What happens with activation of Beta-2 receptors?

Answer 22

• found in lungs
  
  • taken by asthmatics
• relaxation of smooth muscle & metabolic (glyogenolytic) effects
• primary site in CV system is blood vessels
  
  • G-protein coupled receptor, increase cAMP

Question 23

What happens with activation of alpha-1 receptors?

Answer 23

• mediates smooth muscle contraction
• primary CV system location is on blood vessels
• activates phospholipase C
  
  • to increase intracellular calcium via inositol trisphosphate

Question 24

What activates alpha-1 receptors?

Answer 24

epinephrine > norepinephrine >> isoproterenol

Question 25

What activates Alpha-2 receptors?

Answer 25

epinephrine > norepinephrine >> isoproterenol

Question 26

What happens with activation of Alpha-2 receptors?

Answer 26

• inhibition of neural norepinephrine release
• prejunctional nerve terminal, platelets, gut, medulla oblongata
  
  • inhibit sympathetic activity
• acts to decrease cAMP or activate Na/H antiporter

Question 27

What is the only Alpha-1 agonist that is used clinically?

Answer 27

Phenlyephrine

• used to reverse hypotension and paroxysmal atrial tachycardia
• vasoconstriction –> increases resistance
• doesn’t work if gave alpha-1 antagonist prior because all receptors are blocked

(also dilates pupils)

Question 28

What does Albuterol do to blood pressure?

Answer 28

• lower pressure
• Beta-2 agonist
  
  • action would be blocked if propanolol given prior (beta-2 antagonist)

Question 29

What does Isoproterenol do to blood pressure?

Answer 29

• increase HR, SV → increase BP
  
  • tachycardia (Beta-1)
  • cardiac stimulant
• lower resistance → decrease BP
  
  • vasodilate (Beta-2)
• OVERALL = decrease BP!!!
  
  • radius⁴
• will have no effect if enough Beta-blocker is given
  
  • all beta receptors blocked

Question 30

What does epinephrine do to blood pressure?

Answer 30

• Can do anything!
• Normal response = raise bp
  
  • Increase HR, SV, resistance
• If alpha-blocker given (Terazosin), take away vascular effect
  
  • no vasoconstrictor
  • acts on Beta-2 → vasodilate
    
    • decrease bp

Question 31

What is the MOA of Imipramine?

Answer 31

potentiate sympathetics by blocking norepinephrine accumulation (block axoplasmic transporter)

(MOA similar to cocaine)

Question 32

What is the MOA of Tyramine, Amphetamine, and Ephedrine?

Answer 32

reverse axoplasmic transporter → increase NE

(mimic sympathetic stimulation)

Question 33

What is the MOA of Guanethidine and Guanadrel?

Answer 33

• induce release of NE from vesicle, probably via displacement
• depletes NE stores
• reduces responses to sympathetic stimulation

Question 34

What receptors does Epinephrine activate?

Answer 34

• Alpha-1
• Alpha-2
• Beta-1
• Beta-2

Question 35

What receptors does Norepinephrine activate?

Answer 35

• Alpha-1
• Alpha-2
• Beta-1

Question 36

What receptors does Isoproterenol activate?

Answer 36

Beta-1 & Beta-2

Question 37

What receptor(s) does Phenlyephrine activate?

Answer 37

Alpha-1

Question 38

What receptor(s) does Clonidine activate?

Answer 38

alpha-2

Question 39

What receptor(s) does alpha methyl Dopa activate?

Answer 39

alpha-2

Question 40

What receptor(s) does Guanabenz activate?

Answer 40

alpha-2

Question 41

What receptor(s) does Dobutamine activate?

Answer 41

Beta-1

Question 42

What receptor(s) does Albuterol activate?

Answer 42

Beta-2

Question 43

What receptor(s) does Metaproterenol activate?

Answer 43

Beta-2

Question 44

What receptor(s) does Ritodrine activate?

Answer 44

Beta-2

Question 45

What receptor(s) does Terbutaline activate?

Answer 45

beta-2

Question 46

What receptor(s) does Salmeterol activate?

Answer 46

beta-2

Question 47

What does Acetylcholine do to blood pressure and what blocks its effects?

Answer 47

• Reduce HR
• Vasodilation
• Decreased BP
• Blocked by anticholinergic meds (atropine)