FDN2_SM_Drugs & Targets

Question 1

What are _____-azapam drugs?

Answer 1

Long-lasting Benzodiazepines

Question 2

Benzodiazepines have the suffix…

Answer 2

_____- azapam (long lasting)

_____- azolam (normal)

Question 3

What are _____-azolam drugs?

Answer 3

Benzodiazepines (not long lasting)

Question 4

Which CYP metabolizes ____-azapam drugs?

Answer 4

CYP2C19 (and maybe CYP3A4?)

Question 5

What are ____-prazole drugs?

Answer 5

Proton pump inhibitors (Prazoles inhibit proton pumps)

Question 6

What do benzodiazepines do?

Answer 6

They enhance the effect of GABA at the GABA_A Receptor

The effects can be sedative, sleep-promoting, anti-anxiety, anticonvulsant, muscle relaxant

Question 7

Which CYP metabolizes ____-prazole drugs?

Answer 7

CYP2C19 and CYP3A4

Question 8

Which CYP metabolizes ____-azolam drugs?

Answer 8

CYP3A4

Question 9

What are ____-olol drugs?

Answer 9

Beta-Blockers

Question 10

What is the difference between Metoprolol and Propanolol?

Answer 10

Metroprolol is a selective Beta1 blocker

Propanolol blocks both Beta1 and Beta2 receptors

Question 11

What does a beta1 blocker do?

Answer 11

Selective Beta1 blockers reduce cardiac contractility and output.

They are prescribed to treat high blood pressure (Example: Metroprolol)

(When activated, the Beta1 receptor increase heart contractions)

Question 12

What does a non-selective beta blocker do?

Answer 12

Beta 1 effects: Inhibits cardiac contraction -> reduces cardiac contractility and

Beta 2 effects: inhibits smooth muscle relaxation

Prescribed for anti-arrhythmia, high blood pressure, and to improve survival after a heart attack

Example: Propanolol

Question 13

What are ___-tidine drugs?

Answer 13

Histimine H2 Receptor Blockers (competitive antagonist); they prevent the secretion of gastric acid

Question 14

Which CYP metabolizes ____-olol drugs?

Answer 14

CYP2D6

Question 15

Whare are two examples of methylxanthines?

Answer 15

Caffeine, theophylline

Question 16

How does cimitidine affect the metabolism of other drugs?

Answer 16

Cimitidine inhibits a lot of CYPS

Question 17

How might caffeine and theophylline interact with other drugs?

Answer 17

Caffeine and theophylline are competitive inhibitors of adenosine.

Question 18

Which CYP metabolizes caffeine and theophylline?

Answer 18

CYP1A2

Question 19

Which CYP metabolizes NSAIDS?

Answer 19

CYP2C9

Question 20

Which CYP metabolizes warfarin?

Answer 20

CYP2C9

Question 21

Which CYP metabolizes clopidogrel?

Answer 21

CYP2C19 activates clopidogrel

Question 22

What do Thiopurine drugs treat?

Answer 22

Some autoimmune-y disorders

Leukemia, IBD, organ transplantation rejection, rheumatic disease

Question 23

Which CYP metabolizes codeine

Answer 23

CYP2D6 activates codeine

Question 24

How does Ethanol affect acetaminophen toxicity?

Answer 24

At low levels, ethanol is metabolized by aldohol dehydrogenases.

At higher levels, ethanol:

- activates CYP2E1, which promotes the formation of toxic NAPQI

• Inhibits GST, which saves hepatocytes from NAPQI by conjugating glutathione

Question 25

What is digoxin prescribed for?

Answer 25

Atrial Fibrilation

Note: It has a narrow therapeutic window; Amenable to therapeutic drug monitoring

Question 26

What do theophylline and caffeine do?

Answer 26

They are bronchodilators

Question 27

What are caffeine and theophylline prescribed for?

Answer 27

They are prescribed as bronchodilators

Question 28

Name 2 non-selective agonists of adrenergic receptors

Answer 28

Norepinephrine, epinephrine

Question 29

Which adrenergic receptor is largely unaffected by norepinephrine?

Answer 29

Beta2

Question 30

How are Beta 2 receptors activated by sympathetic action?

Answer 30

Sympathetic innervation to the adrenal medula causes the release of Epinephrine (80%) and Norepinephrine (20%).

• Beta 2 receptors are activated
• Gloal increase in all adrenergic receptor activation (coordinated effect of the fight or flight resposne)

Question 31

What type of drug is phenylephrine?

What does it do?

What is it used for?

Answer 31

Selective alpha 1 agonist

Increases vasoconstriction of smooth muscles

Used to increase blood pressure during surgery, and decrease nasal congestion

Question 32

What are 2 clinical uses of selective alpha 1 agonists?

Answer 32

Increase blood pressure during surgery/anesthesisa

Nasal sprays decrease congestion

Question 33

Which two drugs might you give durins spinal anesthesia to maintain the patient’s heart rate and blood pressure?

Answer 33

Phenylphrine: Increase blood pressure

Atropine: Inhibit drop in heart rate
(acts via parasympathetic pathway)

(acts via sympathetic pathway)

Question 34

What type of drug is an “-erol”?

What do these drugs do?

What are they used for?

Answer 34

Selective Beta2 agonist

-erols increase smooth muscle relaxation in airways

They are used to treat airway disorders like asthma and COPD

Question 35

What type of drug is metoprolol?

What does it do?

What is it used for?

Answer 35

Selective Beta 1 blocker (a competitive antagonist)

Metoprolol decreases heart contractility

It is used to treat high blood pressure and arrythmia with a sympathtic origin

Question 36

What type of drug is propanolol?

What does it do?

What is it used for?

Answer 36

Non-selective Beta blocker (competitive antagonist of Beta 1 and Beta 2 adrenergic receptors)

Propanolol nhibits heart contractility and smooth muscle relaxation => more forceful heart contractions, more constricted airway

Propanolol treats hypertension

Question 37

Describe a patient who you would need metoprolol instead of propanolol

Answer 37

A patient with hyperension and any respiratory disorder (asthma, COPD)

Question 38

What type of drug is atropine?

What does it do?

What is it used for?

Answer 38

Muscarinic antagonist (competitive inhibitor)

Increases heart rate

Used during spinal anesthesia

Question 39

What kind of drugs are “-tropium” drugs?

What do they do?

What are they used for?

Answer 39

Muscarinic antagonists (competitive inhibitors)

-tropine drugs open airways

They treat asthma and COPD

Question 40

Which two drug classes can be used to treat asthma?

Which branch of the autonomic nervous system does each drug act on?

Answer 40

• erol drugs (albuterol): sympathetic action; Beta 2 agonist, promotes airway relaxation
• tropium drugs (ipratropium, tiptropium): parasympathetic action; muscarinic antagonist, inhibits airway constriction

Question 41

At his office visit, your patient’s blood pressure measures 150/100. You see on the medication list that the patient is already taking tiotropium.

Which blood pressure medication would you prescribe, and why?

Answer 41

You would prescribe metoprolol

Tiotropium indicates that the patient most likely has a respiratory disorder like asthma or COPD; therefore, you would not want to prescribe a blood pressure medication with a Beta 2 side-effect. The patient needs a selective Beta 1 blocker to treat his blood pressure.

Question 42

Before a patient’s visit, you see on their chart that they were prescribed phenylephrine at their last vist.

What did this prescription most likely treat?

Answer 42

Nasal congestion

Phenylphrine is an alpha-1 agonist that increases vasoconstriction.

Phenylphrine can be used in surgery to increase blood pressure (which usually happens in the hospital and not at home), or as a nasal spray to treat congestion

Question 43

What is Tetrodotoxin?

What does it do?

Answer 43

Tetrodotoxin (TTX) is the pufferfish poison

It blocks voltage-gated Na+ channels, preventing action potential initiation in nerves and skeletal muscle

(Cardiac and smooth muscle are not sensitive to TTX)

Question 44

What agent cleaves SNARE SNAP-25?

Answer 44

Botulinum Toxin Type A (Botox A)

Question 45

What do botulinum toxins do?

What are they used for?

Answer 45

Botunlinum toxins irreversibly cleave a specific part of one of 3 SNARE proteins

This prevents priming of the ACh release machinery, and therefore, the release of ACh, in somatic neuromuscular signaling

Botox A is used to treat spasticity (epilepsy, blepharospasm) by cleaving SNARE SNAP-25

Question 46

Which agent acts at the neuromuscular junction of the somatic nervous system to treat epilepsy?

How?

Answer 46

Botox A

Cleaves SNARE SNAP-25 to prevent priming of the fusion machinery and the subsequent release of ACh

This prevenst muscle contraction

Question 47

What type of drug is a “-curonium” drug?

What do they do?

What are they used for?

Answer 47

-curonium drugs are non-depolarizing nicotinic receptor blockers (competitive inhibitors)

They are competitive inhibitors of ACh at nicotinic receptors; they prevent muscle contraction

They are used to relax skeletal muscle in surgical procedures

Question 48

What drug would you give to a patient to relax skeletal muscles during surgery?

Answer 48

a -curoinium drug (rocuronium, vecuronium)

Question 49

What type of drug is succinylcholine?

What does it do?

What is it used for?

Answer 49

Succinylcholine is a fast-acting noncompetitive depolarizing blocker

It rapidly activates and then inactivates skeletal muscle

It is used to relax skeletal muscle in intubation

(2 ACh molecules end to end)

Question 50

Emergency!! You need to inubate your patient? What agent do you give them to make intubation easier?

Answer 50

Succinylcholine; it rapidly relaxes skeletal muscle

Question 51

What type of drug is neostigmine?

What does it do?

What is it used for?

Answer 51

Neostigmine is a reversible inhibitor of acetylcholinesterase

By inhibiting the enzyme that degrades ACh, neostigmine acts to increase ACh concentration in the synaptic cleft

It is used to improve cholinergic signaling when nicotinic and muscarinic receptors are imparied (ex: Myasthenia Gravis)

Question 52

Which drug would you prescribe to treat myasthenia gravis?

Why?

Answer 52

Neostigmine - A competitive inhibitor of Acetylcholinesterase (The drug competes with ACh)

Myasthenia Gravis is a disease that destroys nicotinic ACh receptors.

Neostigmine -> ACh stays in the synaptic cleft longer -> improves signaling even with few receptors

Question 53

Which drug woud you prescribe to inhibit AChE?

Why would you want to do this?

Answer 53

Neostigmine inhibits AChE

AChE (acetylcholinesterase) degrades ACh so it can be re-updaken by the nerve ending and recycled. Inhibiting AChE results in increased ACh in the synaptic cleft.

You would prescribe neostigmine to patients with reduced or impaired nicotinic or muscarinic receptors.

Question 55

What do vecuronium and succinylcholine have in common?

What is different about them?

Answer 55

Both drugs are nicotinic receptor blockers

Vercuronium is a non-depolarizing blocker, used to relax skeletal muscle during surgery

Succinylcholine is a rapid depolarizing blocker, used to relax skeletal muscles for intubation

Question 56

Which drugs would you use as non-depolarizing nicotinic receptor blockers during surgery?

Answer 56

-curonium drugs (Rocuronium, vecuronium)

Question 57

What substances would reduce the effect of adenosine as a method to treat tachycardia?

Answer 57

Caffeine and theophylline

Question 58

What is quinidine?

Answer 58

Class I anti-arrhythmic drug

Note: it has a high affinity for p-glycoprotein, which means that it may have significant interactions with other drugs (the other drugs may be displaced)

Question 59

How does quinidine affect p-glycoprotein?

Answer 59

Quinidine has a high affinity for p-glycprotein.

This can displace other drugs from P-glycoprotein, resulting increased levels of these drugs in the body due to:

1. Increased absorption of these drugs from the intestine
2. Decreased tubular secretion of these drugs in the renal tubule

Question 60

Describe the interaction of quinidine and digoxin

Answer 60

Quinidine and digoxin use the same transporters to get into the renal tubule from the bloodstream.

Quinidine impairs the renal clearance of digoxin by displacing it from the transporter during tubular secretion