Module 2B

Question 1

What are the 3 fundamental principles of drug action

Answer 1

i)Pharmacokinetics
ii) Pharmacodynamics
iii) pharmacology

Question 2

Pharmacokinetics

Answer 2

describes the ADME which bring a drug to the site of action

Question 3

Pharmacodynamics:

Answer 3

explains the relationship between the drug concentration at the site of action and the response

Question 4

Pharmacology

Answer 4

explains the general properties of drug receptors and drug-receptor interactions at the basis of drug action
- The study of what drugs are, what drugs do and how drugs work
- This is done through chemical processed, mainly through binding to regulatory molecules
- When they bind to the regulatory molecules they will either activate or inhibit normal body processes

Question 5

What is a pharmacologist

Answer 5

Studys action of drugs on physiological system, organs, cells, subcellular macromolecules

Question 6

What is pharmacotherapeutics

Answer 6

• Study of the therapeutic uses and effects of drugs to relieve suffering or prevent disease

Question 7

What is pharmacy

Answer 7

• Study of drug preparation, formulations
  
  • Includes patient counselling

Question 8

What is pharmacognosy

Answer 8

• Study of medicine from natural sources

Question 9

What is toxicology

Answer 9

• Study of toxins/ poisons

Question 10

Example of pharmacology in action

Answer 10

Ask about a person drinking grapefruit juice
- We are asking this as grapefruit inhibits one of the enzymes CYP 3A4 which breaks down statins and other drugs which means they will get to much of the drug and more likely to experience toxic effects

Question 11

What are the fundamental principles of drug action

Answer 11

i. Pharmacokinetics explains an effective concentration at the site of action
ii. Pharmacodynamics explains the relationship between drug concentration and the response
iii. Pharmacology explains the binding of the drug to the receptor

Question 12

What is a drug

Answer 12

• A chemical that interacts with molecules in the body to affect a physiological function
  
  • Are promiscuous as they bind to many receptors

Question 13

Two sources of drugs

Answer 13

a) Endogenous sources
- From the body (hormones, neurotransmitters)
- Anything with activity must bind to a receptor to fulfill its action
b) Exogenous
- Not from the body
- Plants (phytochemicals), marine life, micro-organisms, fungi, synthetic
- Most of the drugs that are prescribed are synthetic meaning man made

Question 14

What is a receptor

Answer 14

• The macromolecule which a drug must bind to have an effect
  
  • When the drug binds it changes the receptor to cause a biological function

Question 15

What to receptors determine

Answer 15

• The quantitative (how much) relationship between dose/ concentration and effect
  
  • Promiscuous meaning that they will bind to many ligands
  • Responsible for drug selectivity and they mediate the actions of drugs

Question 16

What is an inert binding site

Answer 16

• Molecules to which drug bind but the binding doesn’t cause any change which we can detect in the biologic system
  
  • Eg. Albumin

Question 17

Where can receptors be placed

Answer 17

• They can be many different places
  
  • Extra/ intracellular, or transmembrane

Question 18

What is an agonist

Answer 18

• Drugs that occupy receptors and activate them at full strength

Question 19

What is a partial agonist

Answer 19

• Drugs that occupy receptors and activate them but less than the full amount

Question 20

What are antagonist

Answer 20

• Drugs that occupy receptors and do not activate them

Question 21

Explain the drug receptor interaction

Answer 21

• They need to be close enough to interact
  
  • The affinity( how much they are attracted to eachother) is important as in they are in equilibrium in the biophase
  • This interaction obeys the laws of mass action

Question 22

What is signal transduction

Answer 22

• Getting a cellular signal across a cell membrane
  
  • Moves from external to internal and allows for drug activity

Question 23

What are the different types of interactions

Answer 23

a) Covalent
- Strongest
- Two atoms (one from drug and one from receptor) share an electron pair
- Often leads to an irreversible binding and often requires receptor destruction and function is resumed when there is synthesis of new receptors
b) Ionic
- Formed through electrostatic forces of ions with opposite charges
- Strength is decreased greatly due to distance
c) Hydrogen
- Most common
- The attraction between a hydrogen bond donor (H) and a hydrogen bond acceptor (N or O)
- Weak alone but can be stronger with many
- The basis to many drug-receptor interactions
d) Hydrophobic interactins
- Van der waals
- Very week
- Occur between non polar functional groups
- Contribute to but not responsible for D-R interactions

Question 24

What is the pharmacophore

Answer 24

• The critical portion of the drug molecule that participates in the D-R binding
  
  • Associated with the pharmacological effect
  • The rest of the molecule will then be tweaked to have favourable PK

Question 25

What are ion channels (two types)

Answer 25

• Allow the passage of specific ions
  i. Ligand-gated: require binding of a ligand to open
  ii. Voltage gated: require a threshold change in membrane potential

Question 26

What are enzymes

Answer 26

• When a drug binds to an enzyme it is either a substrate for it (metabolized by it) or changes it its metabolic activity

Question 27

What is a transporter

Answer 27

• Drugs bind to transported often interfere with the movement of other molecules across plasma membranes or between organelles

Question 28

4 mechanisms of drug signaling

Answer 28

i. Ligand gated ion channel: responds in milliseconds
ii. G-protein coupled receptor: seconds
iii. Kinase- liked and related receptors: hours
iv. Nuclear receptor: hours

Question 29

What are ligand gated ion channels

Answer 29

• Found on cell membranes
  
  • The channel opens only when a ligand is bound to it which lets ions pass through
  • Fastest channels
  • Drugs still compete with endogenous ligands

Question 30

What are G-protein coupled receptors

Answer 30

• A single ligand can produce a large response as these receptors amplify signal transduction
  
  • The duration depends on longevity of GTP binding to the g-protein not the receptors affinity for the ligand
  • Found on plasma membranes and over 1000 types so they are grouped

Question 31

Kinase linked receptors (three types)

Answer 31

• When activated they cause changes in gene expression
  
  • The endogenous ligands include hormones, neurotransmitters, cytokines…
  • The ligand binds and this causes a cascade of phosphorylation that leads to changes in gene transcription rates
  • The three groups
    i. Receptor tyrosine kinases: most common
    ii. Receptor serine-threonine kinases
    iii. Cytokine receptors

Question 32

What are nuclear receptors

Answer 32

• Ligand gated transcription factors
  
  • They are intracellular meaning the drug must cross the plasma membrane to interact with either the nucleus or cytoplasm
  • When bound it causes changes in gene transcription rates
  • Examples that use nuclear receptors are vitamin D, hormones, corticosteroids
  • There are 4 subfamilies which are grouped by molecular action

Question 33

What are the short and long term adverse effects of corticosteroids

Answer 33

1. Short term (2weeks)
   
   • Insomnia/ restlessness: take in the morning
   • Hypertension: monitor
   • Hyperglycemia: monitor in diabetes patients
   • Stomach upset: take with food
   • Psychosis: with high doses (pulse therapy), monitor and are more susceptible if they have a history of mental health
2. Long term: much worse conditions

Question 34

What is the law of mass action

Answer 34

• It describes the drug receptor interaction
  
  • Describes the equilibrium between the concentration of the reactants (D and R) and the concentration of the drug-receptor complex (D-R)

Question 35

Law of mass action equation

Answer 35

Question 36

What does the law of mass action state

Answer 36

• The rate of change of the reactant concentration is directly proportional to the concentration of the reactants in both directions
  a) The rate where the components associate (K12) depends on the drug and receptor concentrations individually
  b) The rate where the D-R complex dissociates (K21) depends on the concentration of the D-R complex
  Rate is how fast or slow a reaction occurs and gives a comparative amount of the reaction rates

Question 37

What is the reaction rate

Answer 37

• The measure of how fast or slow a reaction occurs

Question 38

What is the reaction rate constant

Answer 38

• A comparative amount of the reaction rates of reactants and products

Question 39

What does Kd tell me

Answer 39

• How frequently dissociation occurs
  
  • The dissociation constant
  • Tells us how strong the interaction with receptor the drug had

Question 40

Kd equation

Answer 40

Question 41

What does Ka tell me (and equation)

Answer 41

• How frequently association occurs
  The association constant

Question 42

What is affinity

Answer 42

• The ability of a drug to interact with a receptor
  
  • Depends on the nature of the bond interaction which depends on the properties of the drug and receptor
  • The physicochemical properties include: molecular size, stereochemical orientation of functional groups, electrochemical properties (ionic and dipole interactions), molecular shape (stereoisomers)

Question 43

What does it mean to Kd is there is high or low affinity

Answer 43

a) High affinity: the Kd will be small as magnetic attraction is strong
b) Low affinity: the Kd will be large as the magnetic attraction is weak

Question 44

What does a Kd mean in comparison to an index of affinity (small vs large kd)

Answer 44

a) Small Kd means there is not much different between the rate of dissociation compare to association
- Enjoys being in the D-R complex
- High affinity
- The higher the affinity of drug for receptor the lower the concentration at which it produces a given level of occupancy of the receptor
- Don’t need much drug to produce the response as it likes being in the receptor

b) Large Kd means there is more dissociation as it is faster then the association 
- Does not like being in the D-R complex
- Low affinity
- Need a lot of the drug before a response occurs 
- The lower the affinity of a drug the higher the concentration needs to be to produce occupancy at the receptor (effect occurs)

Question 45

What is capacity

Answer 45

• Rt
  
  • The total concentration of receptors in the body that a drug can bind to
  • Finite number of receptors

Question 46

What does the occupancy theory state

Answer 46

• Have a finite number of receptors in the body and these responses depend on ho many of the receptors are occupied
  
  • If all receptors are occupied this means that there will be a maximum pharmacological effect and if the drug concentration increases it will not result in an increase in the drug response
  • However if all the target receptors are occupied toxicity and adverse effects can occur due to drug promiscuity

Question 47

What is affinity

Answer 47

• The strength of attraction between D and R

Question 48

What is capacity

Answer 48

• How many receptors are in the body to illicit an effect
  
  • The magnitude of effect

Question 49

If we rearrange the occupancy theory reaction to what does it tell us

Answer 49

• The rate of a process depends on the total number of receptors (Rt), equilibrium constant (Kd), and drug concentration [D]
  
  • Same equation as a hyperbola
  a) This is the mathematical relationship which describes all drug receptor interaction
  - Not linear relationship
  - At some point there will not a proportional increase between concentration and rate due to saturated receptors

Question 50

How to turn the drug receptor interaction equation into a dose response curve and what defines thie shape of this curve

Answer 50

• Take the log concentration
  
  • Affinity and capacity define the shape

Question 51

What do affinity and capacity represent in the dose response curve

Answer 51

a) Affinity: the concentration that produces 50% of the response
b) Capacity: the maximum response that is possible in the body

Question 52

What is specificity

Answer 52

• The ability of drug to produce an action at a specific site
  
  • Refers to the relative potency (measure of drug activity) of a drug between the receptors of two or more different endogenous binding sites

Question 53

What is selectivity

Answer 53

• Refers to the relative potency of a drug for the receptor subtypes of the same endogenous binding site
  
  • Eg. Cox-1, cox2
  • A1/a2

Question 54

Explain the difference between specificity and selectivity

Answer 54

a) Selectivity shows a molecule with greater affinity to for one receptor
b) Specificity is like selectivity but goes a step further where no increase in the molecule of interest can activate the other receptor

Question 55

What is the 2 stage model in response

Answer 55

a) Drug must have affinity for the receptor
b) Drug must have intrinsic activity or efficacy

Question 56

What is intrinsic activity (efficacy)

Answer 56

• The ability of drug to elicity a response when it binds to the receptor
  • After the drug binds to the receptor it can do full action (agonist), partial action (partial agonist), or no action (antagonist)

E= Effect
a= intrinsic activity

Question 57

what does it mean when intrinsic activity is 1, 0-1, or 0

Answer 57

i) 1: full response
ii) 0-1: partial response
iii) 0: no response

Question 58

What is occupation of receptors governed by

Answer 58

• Affinity

Question 59

What determines the ability of drug once bound to receptor

Answer 59

• Efficacy

Question 60

What is efficacy dependent upon

Answer 60

a) Drug receptor coupling
- What type of receptor, what signal transduction goes on, what kind of bonds
- Full agonists usually have stronger bonds
b) Drug concentration
- Concentration range may dictate binding

Question 61

What is the efficacy spectrum

Answer 61

i. Full agonist: produces maximal response
- a=1
ii. Partial agonist: produces a response but not full
- a<1
iii. Antagonist: produces no response
- a=0

Question 62

Can drugs have same or different affinity and intrinsic activity

Answer 62

• Two drugs can have same affinity but different intrinsic activity
  
  • Two drugs can have different affinity but same intrinsic activity

Question 63

What are the classification of antagonism

Answer 63

1. Receptor antagonism (interaction occurs at receptor site)
   a) Reversible
   Competitive
   Non competitive
   b) Irreversible
   
   2. Chemical antagonism
   3. Pharmacokinetic
   4. Physiological or functional

Question 64

What are competitive reversible antagonism

Answer 64

• A drug antagonizes the action of a second drug by competing for the same receptor site
  
  • The drug with highest affinity wins
  • In the body drugs will also have to compete with the bodies ligands

Question 65

ways to change Competitive reversible antagonism

Answer 65

• Can be overcome by increasing the drug concentration
  
  • The second drug changes the affinity of the original drug (have to give more of the 1st drug in presence of second drug)

Question 66

What is non competitive reversible antagonism

Answer 66

• One drug antagonizes the action by binding to a different receptor site in a way that prevents the agonist action of the other

Question 67

What is irreversible antagonism

Answer 67

• Binds with the receptor permanently
  
  • The receptor lifespan as a cell will aid in determining the duration of action
  • Potential to change both affinity and intrinsic activity ( efficacy) of the opposing drug

Question 68

What is chemical antagonism

Answer 68

• One drug antagonizes the action of a second drug by binding to and inactivating the second drug rather then the receptor site

Question 69

What is pharmacokinetic antagonism

Answer 69

one drug antagonizes the action of another drug by reducing the concentration of drug at the site of action
- Pharmacokinetic interaction as it affects the ADME process

Question 70

What is physiological or functional antagonism

Answer 70

• One drug antagonizes the action of another drug by producing a response that opposes the other using different receptors

Question 71

What is desensitization

Answer 71

• Diminished effect occurs in the course of a few minutes
  
  • Doesn’t happen to often