3. Agonists and enzymes

Question 1

What are pharmacodynamics?

Answer 1

study of a drug’s molecular, biochemical, and physiologic effects or actions

Question 2

What is the equation for a reversible drug/receptor reaction?

Answer 2

D + R <=> DR (drug receptor complex)

Question 3

What is the law of mass action?

Answer 3

The rate of a chemical reaction is proportional to the concentration of the reacting substrates

Question 4

What is KD and how do we derive it?

Answer 4

It’s the dissociation constant for a drug/receptor reaction. It is when the drug concentration at which half of the receptors are occupied.

See equation derivations page 1.

Question 5

What is KA in relation to KD?

What does it describe?

Answer 5

The affinity constant. It is the reciprocal of KD e.g. 1/KD

It describes the affinity of a drug to its receptor

Question 6

What is the rule with any thing and it’s reciprocal?

Answer 6

If we double the number, the reciprocal will halve.

Question 7

What is the equation for drug receptor occupancy?

Answer 7

r= [DR]/ [RT]

r = fractional occupancy
RT = total number of receptors e.g. the sum of bound and free receptors.

Question 8

What is the fractional occupancy if KD is equal to the drug concentration?

Answer 8

0.5

Question 9

How can we plot a drugs KD on an affinity graph?

Answer 9

KD = D R / DR

At equilibrium, half of the receptors are full therefore, R = DR and so they cancel each other out. Meaning that KD = D.

So an affinity graph has % of receptor occupied as y and drug concentration on x, then the concentration of drug can be plotted as 50% occupancy on the graph.

Question 10

If we plot a graphical representation of affinity, what shape do we get?

Answer 10

Hyperbolic curve

Question 11

What happens to KD as drug affinity changes?

Answer 11

KD = D R / DR

If drugs have a high affinity, the DR side of the equation will be favoured. If DR is high D R will be low and so KD will be low.

Higher affinity = lower KD and vice versa.

Question 12

What is the difference between full and partial agonists?

Answer 12

Full agonist = drugs that provide a maximum response (E) - an intrinsic activity of 1.

Partial = below maximal response - intrinsic activity between 0-1.

Question 13

How does the dissociation constant (KD) relate to full agonists?

Answer 13

It is the concentration of full agonist producing a half maximal response

On a graph KD is the same as EC or ED50

Question 14

What is an inverse agonist?

Answer 14

They have the opposite effect on a receptor

Question 15

What shape is an enzyme simulation graph showing Km?

Answer 15

Hyperbolic

Look at the two Km tables on page 2 of graphs

Question 16

What is Km?

Answer 16

The Michaelis constant, which is the concentration of substrate that means the velocity of the reaction is half of the Vmax.

Question 17

What is the michaelis menten equation and what does it tell us?

Answer 17

V = Vmax [S] / (Km + [S])

It predicts the rate of a biological reaction according to substrate concentration and enzyme characteristics e.g. Km and Vmax.

Question 18

What are the three ways that drugs can increase enzyme activity?

Answer 18

Direct positive allosteric modulation: increases the Vmax or Km e.g. insulin or tyrosine kinase

Indirect increase via intermediate messengers e.g. GCP receptor agonists coupled with adenylate cyclase i.e. H2 D1 and b receptors.

Enzyme induction (increasing concentration): the cyp450 enzymes metabolise many drugs and chronic exposure induces them, meaning increased drug clearance. Some iso forms metabolise several drugs.

Question 19

List the important drug interactions we must know, for enzyme inducers?
For Vec, warfarin, ciclosporin, steroids.

If we stopped the enzyme inducers suddenly, what would happen to the other drug?

Answer 19

phenytoin and carbemazepine reduce the duration of vec

rifampicin or carbemazepine reduce the efficacy of warfarin

Rifampicin reduces the efficacy of ciclosporin

barbiturates reduce the efficacy of corticosteroids

Stopping g the enzyme inhibitors suddenly causes increase of other drugs.

Question 20

What ways can drugs reduce enzymes?

Answer 20

Direct inhibition via reduction of Km or Vmax
Indirect via intermediary messengers

Either reversible or irreversible

Question 21

What is the role and structure of acetylcholinesterase?

What are the three different kinds of inhibitors?

Answer 21

AChE causes ester hydrolysis of ACh at the NMJ.

Contains: (Diagram pharma 3 page 27)
anionic site (negatively charged) attracting a positive quarternary ammonium ion.
Esoteric site: ester hydrolysis to form choline and acetic acid.

Inhibitors:
Short acting: edrophonium binds to anionic site
Medium: neostigmine and pyridostigmine - bind to both sites.
Long acting: organophosphates - phosphorylates the esteratic site (acts like carbamylators). The drug enzyme complex becomes aged with time and inhibition becomes irreversible.

Question 22

What are the two classes of reversible AChE inhibitors and what do they do?

Answer 22

Carbamylators (e.g. -igmines)
Carbamylated enzyme (usually acetylated), reacts more slowly with water, reducing the rate of ACh breakdown allowing cleft buildup.

Anionic site (edrophonium).
Short acting competitive used for diagnostic purposes.

Question 23

What can toxic levels of anticholinesterases cause?

Answer 23

This can cause a cholinergic crisis involving:
Salivation
Lacrimation
Urination
Defeacation
GI upset
Emesis

Plus: weakness, bradycardia and respiratory paralysis.

Question 24

What is the treatment for organophosphate poisoning and how does it work?

Answer 24

Pralidoxime can be given in the first 36-48h before ageing occurs.

It displaces phosphate from the esteratic site until the poison can be eliminated.

Alternatively, new ACHe synthesis can take place if death has not occurred already.

Question 25

What do phosphodiasterase inhibitors do?

Types?

Examples?

Answer 25

Phosphodiasterases degrade the phosphodiester bond in cGMP and cAMP making them inactive.

Active gCMP can lead to smooth muscle relaxation and alteration of platelet function.
cAMP leads to glucose and lipid metabolism and calcium release.

Non-selective e.g. aminophylline and theophylline, mainly effect bronchial smooth muscle but can also cause, vasodilation, positive inotropy and inhibition of platelet aggregation.

Selective:
PDE-3 is similar to cAMP and is predominantly in the heart, producing positive inotropy. Enoximone and milrinone selectively inhibit this.

PDE-V, causes platelet aggregation. Dipyridamole and sildenafil inhibit this.

Question 26

What kind of isomer mixture is warfarin?

Answer 26

Racemic

Question 27

How does warfarin work?

Answer 27

Clotting factors 2, 7, 9 and 10 need vitamin K as a cofactor
Vitamin K is recycled with vitamin K epoxide reductase (VKOR)
Warfarin inhibits VKOR
VKOR genetic variants exist

Question 28

What warfarin isomer is more potent?

How is it metabolised?

Answer 28

S-entantiomer is the most potent.

CYP2C9 is responsible for metabolism (subject to genetic variation)

Question 29

What do allopurinol, methyldopa and methotrexate inhibit?

Answer 29

Allopurinol inhibits xanthine oxidase
Methyldopa does dopa decarboxylase
Methotrexate does dihydrofolate reductase

Question 30

What might giving verapamil/diltiazem with beta blockers cause?

Answer 30

AV block and bradycardia hypotension and asystole

Question 31

What enzymes are used as drugs and why?

Answer 31

Streptokinase, urokinase and altepase can be used as fibrinolytics to convert plasminogen to plasmin to degrade fibrin.

Hyaluronidase breaks down hyaluronic acid - added to ophthalmic LA

Question 32

What is KD?

Answer 32

KD is the molar concentration of a drug at which half of the available drug receptors are occupied at equilibrium.

Question 33

What is ED50 and EC50?

Answer 33

ED = median effective dose, which is the dose of a drug required to achieve the desired effect in 50% of the population

EC = minimum effective concentration, which is the concentration of the drug required to achieve half of the maximal effect.

Question 34

How are EC50 and ED50 related to potency?

Answer 34

The lower the EC/ED 50, the more potent it is.

Question 35

What is the equation for observed response of a drug?

Answer 35

E = er

Response = intrinsic activity x fractional occupancy

Fractional occupancy = r = DR/Rt (rt = total)

Intrinsic activity = Emax of drug/Emax of full agonist

Question 36

In terms of affinity and intrinsic activity (efficacy), what is the difference between a full agonist, a partial agonist, an inverse agonist and an antagonist?

Answer 36

Full = affinity and and IA of 1
Partial = affinity and IA 0-1
Inverse = affinity and IA between 0 and -1
Antagonist = affinity but no IA

Question 37

What are the different types of antagonists and how does this relate to partial agonists?

Answer 37

Either competitive: reversible or non reversible.
Or non-competitive: different binding site.

Partial agonists can act as antagonists of full agonists as they compete for binding site and cause a lesser response.

Question 38

What is constitutive receptor activity?

Answer 38

Receptors being activated in the absence of agonist.

Question 39

What is functional selectivity of receptors?

Answer 39

When one drug can have a range of actions at the same receptor, via different effectors. Can be an agonist, an inverse agonist and an antagonist all at the same time.

Question 40

What is the median lethal dose?

Answer 40

LD50

The dose that will be lethal in 50% of the population

Question 41

What is ED95?

Answer 41

The dose where 95z of people will experience desired effect

Question 42

What is the therapeutic index and how is it calculated?

Answer 42

The balance between useful effects and toxic effects.

LD50/ED50

Question 43

What is affinity?
Efficacy?
Potency?

Answer 43

Affinity = how avidly a drug binds to its receptor.

Efficacy = the magnitude of the effect once a drug receptor complex is formed.

Potency = quantity of drug required to produce a maximal effect.

Question 44

What is first order kinetics?

Answer 44

At low substrate concentrations, not all receptors are saturated and so rate of reaction is dependent on substrate concentration.

Question 45

What is zero order kinetics?

Answer 45

High substrate concentration. Enzymes fully saturated and so rate independent of further substrate concentration changes.

Question 46

What does the michaelis menten equation do?

Answer 46

Michaelis–Menten equation predicts the rate of a biological reaction according to the concentration of substrate and the specific enzyme characteristics

Question 47

What type of drug is cyanide and how does it work?

Answer 47

Non competitive enzyme inhibitor

Inhibits cytochrome oxidase in the electron transport chain, reducing ATP.

Question 48

What are the 3 cox isoenzymes and what do they do?

Answer 48

1: forms GI mucosa, gastric and renal blood flow, vasodilation and platelet function via thromboxane

2: tissue trauma = prostaglandin release = cardinal features of inflammation

3: ? CNS pain perception

Question 49

What are the different types of mono amine oxidases?

Where are they found?

What do they do?

Answer 49

Deanimate neurotransmitters. Found in the liver, so also process foods.

MAO- A: serotonin and catechaolamines
B: tyramine and phenyethanine

Both do dopamine

Question 50

What does carbonic anhydrase do?

Answer 50

Changes H2O and CO2 to H2CO3

Question 51

How do streptokinase, urokinase and altepase work?

Why is altepase a preferential drug?

Answer 51

They convert plasminogen to plasmin which causes fibrin lysis.

Altepase (TPA) is only activated when bound to fibrin so has less systemic effects.

Question 52

What might giving Amiodarone with warfarin cause?

Answer 52

Increased bleeding

Question 53

What food should not be given with ciclosporin?

Answer 53

Grapefruit juice

Can cause ciclosporin toxicity

Question 54

What can SSrI’s and NSAIDs cause?

Answer 54

Increased bleeding

Question 55

What antibiotic shouldn’t be given terfenadine and why?

Answer 55

Clari

Can cause torsades

Question 56

What can Ketoconazole giving with buprenorphine cause?

Answer 56

Increased plasma buprenorphine