Introduction to Pharmacodynamics

Question 1

Pharmacokinetics 2 vs. Pharmacodynamics 2

Answer 1

Pharmacokinetics (PK)
“What the body does to a drug”

Involves movement of drugs to get to the site of action
ADME
Absorption
Distribution 
Metabolism 
Excretion

Pharmacodynamics-what the drug does to the body

Interaction at the effective site to produce pharmacologic activity
Ex: How a drug interacts with a specific receptor and triggers a change in biological regulation

Question 2

What are receptors?

What are most receptors and what are they made of?

Answer 2

Molecular targets where drugs interact to produce an effect
Most are proteins
Made of amino acids and subunits

Question 3

Where are they located?

Answer 3

Some imbedded in the lipid bilayer of cell membranes (transmembrane)
Others located intracellularly

Question 4

Describe the types of protein strcutrures?

Answer 4

Primary
-Amino acid sequence of protein
Secondary
-Microstructures due to attractions between amino acids
Tertiary
-Global shape due to secondary structure
Quaternary
-Only with multiple, distinct molecules

Question 5

Why are receptors important?

Answer 5

1. Selectivity of drug action
2. Affinity depends on the properties of the drug
   - Shape, charge, size
3. Determines the relationship between dose and the pharmacological effects of the drug
4. Responsible for pharmacologic actions of agonists and antagonists
   - When drugs bind to receptors, what action occurs (inhibition or excitation)

Question 6

4 major types of interactions between drugs and receptors

Answer 6

1. Transmembrane ion channels
2. Transmembrane receptor-enzymes
3. Transmembrane G-protein coupled receptors (GPCRs)
4. Cytosolic-nuclear receptors

Question 7

Examples of gated ion channels?

3

Answer 7

Gaba receptors-benzodiapenes-seizure medication- inhibitor

Nicotinic- ach

Question 8

What do receptor-enzymes?

Answer 8

causes a conformational change.

Question 9

What activates GPCRs?

Answer 9

ligand binds and activates

Then GPCR exchanges GTP for GDP

Question 10

What does the activated G protein allow?

Answer 10

dissociation of the alpha subunit. The alpha subunit is then free to move into the cytoplasm and signal

Question 11

When does signal transduction occur?

Answer 11

after a drug binds to a specific receptor

Changes within the cell in response to a drug

Question 12

Why are receptors in the plasma membrane so important for drugs?

Answer 12

Most drugs are positively and negatively charged so they are unable to diffuse directly through the membrane. They need receptrs and channels

Question 13

What does drug affinity depend on?

Answer 13

depends on the properties of the drug

-Shape, charge, size

Question 14

Cells recieve multiple stimulatory and inhibitory signals simultaneously. How are they interpreted?

Answer 14

second messengers

Question 15

Another defintion for pharmacodynamics?

Answer 15

Induce changes within the cell to produce a biochemical or physiologic response

Question 16

What do second messengers do?

Answer 16

Help in translating the message from the bound drug into a cellular response

Question 17

Examples of second messengers?

Answer 17

Cyclic adenosine monophosphate (cAMP)
Cyclic guanosine monophosphate (cGMP)
Inositol trisphosphate (IP3)

Question 18

What does inositol triphosphate do? (IP3)

Answer 18

Aids in release of calcium from within the cell

Question 19

Where do the drug and recepetor pair in the cytosolic-nuclear receptors and where do they go?

Answer 19

they bind in the cytosol and move into the nucleus. When they get there they bind to DNA and create RNA making specific proteins.

Question 20

Examples of cytosolic-nuclear receptors?

Answer 20

glucocorticoids and sex hormones

Question 21

Drugs compete for selective receptor sites

Favorability of the interaction is based on what?

Answer 21

Chemistry
Biochemical affinity (attraction)
Intermolecular interactions (compatibility)

Question 22

What does affinity refer to ?

Answer 22

Chemical forces that cause the drug to associate with the receptor
Bond Forces

Question 23

If there is a higher affinity how does that affect the drug and receptor interaction?

Answer 23

tighter drug binding to the receptor

Question 24

What does drug efficacy refer to?

Answer 24

Extent of functional change imparted to a receptor upon binding of a drug

Question 25

What is the benefit of having a better knowledge of a receptor structure?

Answer 25

increased ability to design a drug selective for a certain receptor this could perhaps cause fewer side effects

Question 26

Describe basal activity and what is another name for it?

Answer 26

• Also called constitutive activity
• Activity of a cell in the absence of a ligand (either endogenous or exogenous)
• Or the “natural” activity of a cell

Question 27

How does an agonist affect activity?

What mediums?

Answer 27

increases activity

Natural ligand
Exogenous compound (drug)

Question 28

How does an inverse agonist affect activity?

Answer 28

Decreases activity

Question 29

Describe the process of agonism?

3

Answer 29

1. Drug binds to receptor
2. Interaction activates signal cascade
3. Leads to function within the cell

Question 30

Describe epinephrines role with beta-1 receptors in cardiac tissue?
3 steps
5 things total to remember

Answer 30

Its an alpha/beta receptor agonist so….
1. Epi attaches to beta-1 receptors →
2. increases calcium level in the cell →
3. increases force of contraction of cardiac muscle
Useful in cardiac arrest

Question 31

What are partial agonists?

Answer 31

Drug that cannot produce a full response, regardless of the concentration

Question 32

What are some factors that make agonists partial agonists?

2

Answer 32

number of receptors on the cell membrane

Drug history

Question 33

What is Buprenorphine?

Answer 33

opioid analgesic used to treat acute and chronic pain

Question 34

What is Buprenorphine role as a partial agonist?

Answer 34

Partial agonist of mu receptor in central nervous system → pain relief
Used to deccrease withdrawl symptoms

Question 35

Whats can partial agonists be used for?

Answer 35

utilized in opioid treatment programs to decrease withdrawal symptoms in patients but not provide as much euphoria as a full opioid agonist (Ex: Heroin)
Can be displaced from receptor by opioids with higher affinity

Question 36

What are inverse agonists?

Answer 36

• Drug that can stabilize receptors in the inactive state

- Binding to a receptor by an inverse agonist produces an effect opposite that of an agonist

Question 37

Examples of inverse agonists?

Answer 37

diphenhydramine

Gaba receptors

Question 38

How does an anti-histamine work as a inverse agonist?

3

Answer 38

• Anti-histamine is an inverse agonist for the H1-receptor
• Blocks the release of histamine from mast cells
• Decreases symptoms caused by histamine release

Question 39

How does a GABA receptor work as an inverse agonist?

Answer 39

1. When bound by natural ligand (GABA) →
2. allows chloride into the cell, which causes sedation
3. Inverse agonist of GABA receptor will cause anxiety and seizure

Question 40

Look at illustrations for agonists in the slide show

Answer 40

More agonists binding = more saturation = more active unbound drug

Question 41

What is ED50?

Answer 41

The point where 50% of patients have a therapeutic effect from the medication
-directly in between threshold and and ceiling levels

Question 42

What is potency?

Answer 42

Dose of drug necessary to produce a specified effect

Question 43

What determines potency?

Answer 43

1. receptor density,
2. efficiency of the stimulus-response mechanism
3. affinity
4. efficacy

Question 44

What is intrinsic efficacy?

And what is it determined by?

Answer 44

Power of a drug to induce a response

Number of receptors in the target tissue

Question 45

How do you determine if one drug is more potant than the other?

Answer 45

If it requires less drug to get the same effect

Question 46

How os relative potency calculated?

Answer 46

ED50b/ED50a

Question 47

What is a competitive antagonist?

2

Answer 47

1. Drug that binds to a receptor but does not initiate a response
2. Compete for active sites with agonists

Question 48

What is an active site?

aka?

Answer 48

• Site where the drug recognizes and binds to the receptor

- Also called substrate binding site

Question 49

How does propranolol act as a competitive antagonist?
3

Whats its end result on the heart?

Look at competitive antagonists picture slides and explain them

Answer 49

1. Its a beta-blocker so it binds to beta1 receptor preventing epinephrine, a beta agonist, from binding to the same receptor
2. Does not initiate a response
3. Blocks epinephrine from initiating its response → decreasing rate and contractility in the heart

Question 50

What is a non-competitive antagonist?

Answer 50

Drug that binds to receptor and does not produce an effect

Binds to a different site other than the drugs active site but that binding creates a conformational change in the binding of the active site.

Question 51

What is the site called that a non-competitive antagonist binds to?

Answer 51

an allosteric site

Question 52

Describe the steps in non competitive antagonists processes?

3

Answer 52

1. Antagonist binds to this site ➔
2. changes the conformation of the receptor ➔
3. impossible for an agonist to bind

Question 53

What is chemical antagonism?

Example?

Answer 53

Drug (antagonist) interacts directly with the agonist drug and renders it inactive
Example: Digibind® - binds to the drug digoxin

Question 54

What is Functional/Physiologic Antagonism?

Example?

Answer 54

Antagonist acts through a completely different mechanism to counteract the effect of the agonist
Example: Calcium channel blockers reduce effects of epinephrine

Question 55

Describe the selectivity of aspirin?

Answer 55

Not very selective. It does it job by inhibiting COX1 and COX 2 receptors to stop inflammation but also interfers with other processes like platelet, kidney function, and stomach issues

Question 56

Describe the selectivity of Celecoxib or Celebrex?

Answer 56

Pretty selective. It only inhibits COX2 and works primarily at the site of inflammation. It also has fewer side effects

Question 57

Why is drug selectivity an important concept to understand when selecting drug therapy for patients?

Answer 57

Mitigate side effects of drugs being used

Question 58

What does cellular regulation accomplish?

Answer 58

Prevention of over-stimulation that could lead to cellular damage

Question 59

What are the four kinds of cell regulation?

Answer 59

Up regulation
Down regulation
Desensitization or (tachyphylaxis)
Refractory

Question 60

What is up regulation?

Answer 60

Cells may add receptors to the cell membrane

Question 61

What is down regulation?

Answer 61

Repeated stimulation of receptor → cell begins to remove receptors from the cell membrane

Question 62

What is Desensitization or (tachyphylaxis)?

Answer 62

• not getting the same effect that you used to
• Diminished effect of drug over time
• Decreased ability of drug to stimulate receptor

Like caffeine if you drink too much

Question 63

What is refractory regulation?

Answer 63

Period of time during receptor simulation before another interaction can produce an effect

Question 64

What are the two borders of the acceptable therapeutic range?

Answer 64

Minimum Toxic Concentration
(MTC) -top border

Minimum Effective Concentration
(MEC)- bottom border

Question 65

Therapeutic Window/Range can best be described as?

Answer 65

Doses of a drug which elicit a therapeutic response without unacceptable toxicity

Question 66

What does the Therapeutic index provide?

2

Answer 66

1. Method for quantifying therapeutic window

2. Provides a relative safety margin of a drug

Question 67

How does the TI affect the safety of the drug?

2

Answer 67

Greater the TI the safer the drug

Greater degree of dosage flexibility means more convenience

Question 68

Why does warfarin require a lot of monitoring?

Answer 68

It has a small therapeutic window.

If the INR is below two then risk of clotting. If INR is above 3 then they are at risk of bleeding.

Question 69

Describe penicillin’s therapeutic window?

Answer 69

Large therapeutic window. Toxic level is high

Question 70

What is the LD50?

Answer 70

LD 50-50% of patients die(or experience toxic effects) from this dose

Question 71

What is the equation for figuring out the TI?

Answer 71

LD50/ED50

Question 72

Examples of TI equations?
Diazapam?
Digoxin?

Answer 72

TI = 100/1 = 100
TI = 2/1 = 2

Question 73

Example of digoxin TI calculations:
Therapeutic range at 0.6_1.5ng/mL
Toxic concentration at 1.5 ng/mL
TI?

Answer 73

TI = (toxic concentration / therapeutic range) = 2.5

Question 74

What three drugs have very narrow theraeutic windows that we talked about?

Answer 74

Warfarin
Digoxin
Lithium

Question 75

Drug A has a TI of 100 and drug B has a TI of 14. Based on therapeutic index alone, which is the safer drug?

Answer 75

Drug A