Drug Receptor Concepts

Question 1

what is pharmacology?

Answer 1

study of interaction between drugs + living body

Question 2

what is pharmacokinetics?

Answer 2

study of how body deals with/handles drugs

Question 3

what is pharmacodynamics?

Answer 3

study of effects of drugs on living body + how effects = produced

Question 4

what is pharmacotherapeutics?

Answer 4

study of use of drugs in treatment + prevention of disease

Question 5

what are the 2 types of drug action?

Answer 5

• non specific

- specific

Question 6

non-specific drug action

Answer 6

• some drugs act in simple physical/chem way (e.g. osmotic diuretics, antacids + chelating agents)
• lack specific structure - activity relationship
• needs large doses of drug for effect

Question 7

specific drug action

Answer 7

• most drugs act in highly specific way - e.g. phenylephrine, salbutamol, atropine, digoxin
• interact with/bind to specific macromolecular/ cellular targets in body (receptors)
• show clear cut structure -activity relationship
• produce effects at v low doses

Question 8

what is the drug receptor concept?

Answer 8

most drugs produce their biological effects by interacting with specific macromolecules in body called receptors

Question 9

what is a receptor?

Answer 9

specialised component of cell/organism that interacts with drug + initiates chain of biochem events leading to drugs observed effects

Question 10

what are drug receptors mainly?

Answer 10

protein / glycoprotein mol

Question 11

give examples of drug receptors located on cell membrane?

Answer 11

• atenolol
• chlorphenamine
• cimetidine
• codeine

Question 12

give examples of drug receptors located on inside of cell?

Answer 12

• oestrogen
• testosterone
• vitamin D

Question 13

what are the different types of drug targets / receptors?

Answer 13

• classical - neurotransmitter, hormones
• ion channels - lidocaine, diazepam, amiodarone
• enzymes - NSAIDs, statins, ACE inhib
• carrier/transport proteins - PPIs, digoxin, SSRIs

Question 14

what law is the drug-receptor interaction governed by?

Answer 14

law of mass action

can relate drug conc + effect to fraction of receptors occupied

Question 15

what do a drug + receptor interacts to form and how?

Answer 15

D-R complex

via reversible chemical interaction

Question 16

what is the lock and key relationship based on?

Answer 16

selectivity of drug

• chem selectivity
• biological / tissue selectivity

Question 17

the fraction of receptors occupied by the drug is a function of what?

Answer 17

• conc of drug in biophase

- equilib dissociation constant (Kd) for d-r complex

Question 18

what are the assumptions of the receptor occupancy theory?

Answer 18

• drug effect = proportional to FRACTION of receptors occupied
• max drug effect (Emax) happens when ALL receptors in systems = occupied

Question 19

what are the possible outcomes of a drug-receptor interaction?

Answer 19

drug may mimic natural, endogenous chemical messenger —> prod same effect as natural chemical messenger (AGONIST)

drug may block access of natural, endogenous chemos messenger to receptor site —> prod no effect (ANTAGONIST)

drug may bind to site near binding site near binding site for natural, endogenous chem messenger + influence its binding —> inc + dec effect of chem messenger (ALLOSTERIC MODULATOR)

drug may bind to site normally occupied by natural, endogenous chemical messenger —> produce opposite effect to chem messenger (INVERSE AGONIST)

Question 20

what does an agonist drug to?

Answer 20

produces same effect as natural chemical messenger

Question 21

what does an antagonist do?

Answer 21

produces no effect

Question 22

what is an allosteric modulator?

Answer 22

inc/dec effect of chemical messenger

Question 23

what is an inverse agonist drug?

Answer 23

produce opposite effect to chem messenger

Question 24

what do agonist and antagonist drugs both have?

Answer 24

affinity for their receptors

Question 25

what is affinity?

Answer 25

measure of probability that drug mol = interact with receptor to form d-r complex

Question 26

what is affinity measured by?

Answer 26

Kd of drug

affinity = 1/Kd

Question 27

differentiate between agonist drugs and antagonist drugs?

Answer 27

agonist drugs have efficacy whilst antagonist drugs have NO efficacy

Question 28

what is efficacy?

Answer 28

measure of biological effectiveness of drug-receptor complex

also = measure of ability of d-r complex to couple/ transduce drug binding into biological response

Question 29

what may efficacy (e) be?

Answer 29

0, low + v. high

Question 30

what is an agonist?

Answer 30

drug that binds to its receptor, activates receptor + elicits biological response

Question 31

what are the 2 types of agonist?

Answer 31

• full agonist

- partial agonist

Question 32

what is a full agonist?

Answer 32

binds to its receptor + is capable of eliciting the max poss response from receptor system

has HIGH efficacy
e.g. dobutamine, salbutamol

Question 33

what is a partial agonist?

Answer 33

binds to its receptor + is capable of eliciting LESS than max poss response from receptor system

intermediate efficacy (e)

reduces response elicited by full agonist

e.g. buprenorphine, oxymetazoline

Question 34

what is an antagonist? (pharmacological)

Answer 34

drug that binds to its receptor but fails to activate receptor, + so fails to elicit a response

has efficacy of 0

Question 35

an antagonist competes with…

Answer 35

agonist drug (or natural chem messenger) for binding to receptor

Question 36

where does an antagonists biological effect result from?

Answer 36

preventing agonist drug from binding to its receptor

e.g. atenolol, chlorphenamine, naloxone

Question 37

what is the ‘spare receptor’ / ‘receptor reserve’ concept?

Answer 37

• exceptions to ‘receptor occupancy theory’
• full agonists elicit max response WITHOUT full receptor occupancy
• system has spare receptors

Question 38

what does the spare receptor concept enable?

Answer 38

• economy of hormone / transmitter secretion

- allows low affinity drugs to elicit max poss response

Question 39

characteristics of the graded dose-response curve

potency

Answer 39

measures amount of drug needed to elicit specified response

• reflected in location of D-R curve along dose axid
• expressed as ED50 / EC50
• clinically expressed as ABSOLUTE / RELATIVE potency
• NOT critical characteristics

e.g morphine vs diamorphine

Question 40

what is maximal efficacy?

Answer 40

maximal response / effect produced by drug

Question 41

characteristics of graded dose-response curve

maximal efficacy

Answer 41

• reflected as plateau in log D-R curve
• MOST imp characteristic of drug

e. g. paracetamol vs morphine
- may = determined/limited by onset of adverse side effects

Question 42

characteristics of graded dose-response curve

slope

Answer 42

• reflects magnitude of change in response with unit of change in dose
• imp consideration under certain circumstances

Question 43

characteristics of graded dose-response curve

biological variability

Answer 43

• DIFF responses to same dose of drug in DIFF people
• DIFF responses to same dose of drug in SAME people
• sources of variation in response: age, genes, gender, poly pharmacy, pathological state

Question 44

define drug antagonism?

Answer 44

interaction between 2 drugs so that the effect of 1 is diminished/completely abolished in presence of other

Question 45

what are the types of drug antagonism?

Answer 45

• competitive (pharmacological/receptor)
• non- comp
• chemical
• pharmacokinetic
• physiological / functional

Question 46

competitive antagonism

Answer 46

agonist + antagonist drugs compete for same receptor binding site

• antagonist binding reduces chance of agonist binding —> dec agonist effect
• 2 subtypes, depending on nature of antagonist-receptor interaction

Question 47

what are the 2 subtypes pithing competitive antagonism?

Answer 47

• reversible/surmountable

- irreversible/insurmountable

Question 48

reversible competitive antagonism?

Answer 48

• antagonist + agonist bind REVERSIBLY to receptor
• fraction of receptors occupied depends on drugs’ relative AFFINITIES + CONC
• antagonism can = overcome by inc conc of agonist drug

Question 49

what are the 2 effects on the agonist log D-R curve for reversible competitive antagonism?

Answer 49

• parallel shift to right

- no reduction in maximal response

Question 50

irreversible competitive antagonism?

Answer 50

• antagonist drug binds IRREVERSIBLY to receptor (high affinity/cov bonding)
• fraction of receptors = permanently unavailable for agonist drug binding
• antagonist NOT OVERCOME by inc conc of agonist drug

Question 51

what are the 2 effects on the agonist log D-R curve for irreversible competitive antagonism?

Answer 51

• reduction in slope of curve

- reduction in maximal response

Question 52

non-competitive antagonism?

Answer 52

• antagonist drug DOESNT compete with agonist drug for same receptor binding site
• antagonist drug may bind to diff site on receptor/interfere with response coupling
• antagonism CANT = overcome by inc conc of agonist drug

Question 53

what are the 2 effects on the agonist log D-R curve for non-competitive antagonism?

Answer 53

• reduction in slope of curve

- reduction in maximal response

Question 54

chemical antagonism?

Answer 54

• direct interaction between agonist and antagonist drugs
• ‘antagonist’ drug binds to/combines with active drug (agonist) in sol
• active drug = inactive/unavailable to interact with target receptors

Question 55

what are the typical examples of chemical antagonism?

Answer 55

• protamine vs heparin

- dimercaprol vs heavy metals (Cd, Pb)

Question 56

pharmacokinetic antagonism?

Answer 56

‘antagonist’ drug acts to reduce effective conc of active drug (agonist) at site of action

Question 57

what are the possible mechanisms for pharmacokinetic antagonism?

Answer 57

• reduced absorption from GIT: ferrous salts vs tetracycline antibiotics
• inc metabolic degradation: phenobarbitone vs warfarin
• inc renal excretion:
  NaHCO3 vs aspirin

Question 58

physiological/functional antagonism?

Answer 58

• interaction of 2 opposing agonist effects in single biological system —> cancelling out of each others effect
• 2 drugs elicit OPPOSING responses by acting on diff receptors

Question 59

what are the typical examples of physiological/functional antagonism?

Answer 59

• Ach vs noradrenaline (heart rate)

- glucocorticoids vs insulin (blood sugar levels)

Question 60

what is summation?

Answer 60

combined effect of 2 drugs elicits same overt response, regardless of mechanism of action = algebraic sum of individual effects

Question 61

what is additivity?

Answer 61

combined effect of 2 drugs, acts by same mechanism = to what is expected by simple addition of individual effects

Question 62

what is synergism/potentiation?

Answer 62

conjoint effect of 2 drugs = greater than algebraic sum of individual effects

Question 63

what may a synergist act to do?

Answer 63

• inc conc of other drug at receptor sites: tyramine + MAO inhib
• inc responsiveness of other drugs receptor - effector protein: benzodiazepines + GABA (gaba A receptor)

Question 64

what does the binding of GABA cause?

Answer 64

Cl- ion channels to open —> hyperpolarisation of cell

Question 65

what does the binding of GABA and benzodiazepine cause?

Answer 65

• entry of Cl- hyperpolarises the cell —> more difficult to depolarise —> reduces neural excitability
• binding of GABA = enhanced by benzodiazepine —> greater entry of Cl- ions

Question 66

variation in drug responsiveness - scope?

Answer 66

• inter patient variation

- intra patient variation

Question 67

variation of drug responsiveness - poss consequences?

Answer 67

• lack of efficacy

- unexpected side effects

Question 68

variation in drug responsiveness - poss mechanisms?

Answer 68

• pharmacokinetic

- pharmacodynamic

Question 69

variation in drug responsiveness - poss types of variation?

Answer 69

• qualitative

- quantitative

Question 70

variation in drug responsiveness - quantitive variations?

Answer 70

• hyper - responsiveness

- hypo - responsiveness / tolerance

Question 71

variation in drug responsiveness tolerance?

Answer 71

• innate vs acquired tolerance

- tolerance vs tachyphylaxis

Question 72

what is acquired tolerance?

Answer 72

acquired state of progressively dec responsiveness to drug as a result of prior repeated exposure to the drug / another drug with similar action

Question 73

what are the mechanisms for acquired tolerance?

Answer 73

• pharmacodynamic
• metabolic
• exhaustion / depletion of mediators
• physiological adaptation

Question 74

mechanism of acquired tolerance - pharmacodynamic?

Answer 74

• receptor down regulation
  reduction in receptor density e.g. Beta 1 adrenergic receptor
• receptor uncoupling
  uncoupling of receptors from effector systems e.g. Beta 2 adrenergic receptor

Question 75

mechanism of acquired tolerance - metabolic?

Answer 75

• enhanced metabolism of drug
• due to induction of metabolising enzymes
  e. g. alcohol, barbiturates

Question 76

mechanism of acquired tolerance - exhaustion/ depletion of mediators?

Answer 76

• common with indirectly-acting drugs
• due to depletion of endogenous stores of mediators of drugs action
  e. g. amphetamine, nitrates

Question 77

mechanism of acquired tolerance - physiological adaptation?

Answer 77

• evoked compensatory / homeostatic mechanisms
• blunts / cancels drugs effects

e.g. diuretics, nitrates

Question 78

what are the 2 types of clinical selectivity?

Answer 78

absolute + relative

Question 79

what 2 effects do u get?

Answer 79

• therapeutic / desirable

- adverse/ undesirable/ side effects

Question 80

absolute vs relative selectivity?

Answer 80

• no drug has one single specific effect

- produces spectrum of effects

Question 81

define relative selectivity?

Answer 81

degrees to which drug acts upon given site relative to all possible sites of interaction

Question 82

therapeutic vs undesirable effects?

Answer 82

undesirable effects may = minor/serious

Question 83

how may undesirable effects come about?

Answer 83

• both effects mediated via same receptor effector mechanism - e.g. nitrates, insulin, warfarin
• both effects mediated via identical receptor in diff tissues e.g. haloperidol, verapamil
• both effects mediated via diff types receptors e.g. salbutamol, propranolol

Question 84

what is therapeutic index determined by?

Answer 84

ratio of toxic to therapeutic dose

Question 85

formula for therapeutic index?

Answer 85

median toxic dose (TD50) / median effective dose (ED50)

Question 86

what does therapeutic index provide a useful measure of?

Answer 86

• margin of safety of drug
• benefit to risk ratio of drug

e.g. penicillin vs warfarin