Concepts In Pharmacology Lectures 3 PDF

Summary

This document is a set of lecture notes from the University of Bradford on concepts in pharmacology, covering topics such as drug properties, potency, efficacy, and toxicity. The notes are from October 29, 2024.

Full Transcript

Concepts in pharmacology –
lectures 3

CLS4011-U

1 29 October, 2024
 How do we tell if a drug works, and
if it works well?

2 29 October, 2024
 3 key drug properties determine if
a drug works, and works safely

Selectivity/Specificity

Potency

Efficacy
3 29 October, 2024
 Selectivity/specificity
Selectivity - describes the ability of a drug to produce a particular effect and relates to its
molecular structure that determines its receptor specificity

Receptor specificity - determined by the precise molecular interactions between a drug
molecule and a receptor protein (binding, affinity)

Some drugs bind only 1 target (e.g., a receptor) whereas other drugs interact
with more than 1 target

Binding/interacting with more than 1 target is known as promiscuity. Both
drugs and receptors can be described as promiscuous if they bind more than 1
target/ligand.

Promiscuity can be both a benefit for pharmacology, or a source of off-
target/toxic effects

4 29 October, 2024
 Drug promiscuity
Example 1 – statins
- Are HMG-CoA reductase inhibitors which result in reduced cholesterol
synthesis in the liver and reduces circulating cholesterol levels

- Also reported to modulate nitric oxide synthase gene expression in vascular
endothelial cells (promoting vasodilation) and reducing macrophage
proliferation (anti-atherosclerosis effects) and reduces inflammatory markers
(anti-thrombus formation effects)

Example 2 – propranolol
- Blocks beta-adrenoceptor beta 1 in the heart which results in reduced heart
rate and contractive force – clinical effect

- Also blocks beta-adrenoceptor beta 2 which can inhibit bronchial smooth
muscle relaxation – can cause bronchospasm in asthmatic and COPD patients
– toxic/harmful effect in some patients

5 29 October, 2024
 Drug potency
Relates to the amount of drug
needed to elicit an effect

Depends on affinity of the drug for
its target

- Low affinity means that the drug
binds weakly and dissociates
readily from the drug. Thus,
needs larger amount of drug to
get effect

- High affinity means drug binds
strongly to target. Thus, smaller
amount of drug will elicit effect

6 29 October, 2024
 Drug potency

Dose relates to how much
drug is given to an
organism

For cell-based experiments
would plot log drug
concentration instead of
dose.

Potency often expressed as
the EC50 of a drug –
concentration needed to
elicit a 50% of max
response

7 29 October, 2024
 Drug potency

Dose relates to how much
drug is given to an
Note: Although the sigmoidal curve organism
shape is
classical for dose-response relationships,
For cell-basedit is not
experiments
the only shape seen - e.g., someconcentration
drugs have
would plot U-
log drug
instead of
shaped dose-responses dose.

Potency often expressed as
In addition to the amount of drug added,
the EC50 ofthe time
a drug –
concentration needed to
of exposure is very important, especially in cell
elicit a 50% of max
culture experiments response

8 29 October, 2024
 Drug efficacy
Ability of a drug to induce a
biological or physiological
response

Drugs can be a full agonist – at
specific doses can induce a full
biological response

Drugs can be partial agonists –
drug cannot induce a full biological
response regardless of dose

Partial agonists can be excellent
drugs – reduced chance of
overdose

Dose of drug needed to have
therapeutic effect in 50% of test
cells or organisms known as ED 50
9 29 October, 2024
 Agonists and antagonists

Agonist – Compound which binds a target molecule (e.g., a receptor), and
activates that target (i.e., elicits a response from the drug target).

Antagonist – Compound which binds to a target molecule (e.g., a receptor) but
prevents or does not activate that target (i.e., blocks a response from the drug
target)

Types of antagonists:
- Competitive
- Non-competitive
- Pharmacokinetic
- Physiological

10 29 October, 2024
 Competitive antagonism
1.00 maximal effect

fractional response
0.75
control
+ antagonist
0.50

0.25

0.00
-11 -10 -9 -8 -7 -6 -5 -4 -3 -2 -1
log [acetylcholine] (M)

Effect of the antagonist is “surmountable”

i.e., by adding more of an agonist, the effect of the antagonist can be overcome

These types of experiments can help pharmacologists understand how a drug
works by helping to identify the drug target.
11 29 October, 2024
 Non-competitive antagonism

1.00 control

fractional response 0.75 + antagonist

0.50
Insurmountable
0.25 (cannot be overcome
by high agonist
0.00
-12 -9 -6 -3
concentrations)
log [agonist] (M)
Effect of the antagonist is not “surmountable”

i.e., by adding more of an agonist, the effect of the antagonist cannot be overcome

Antagonist binds at allosteric site or irreversibly to active site – cannot be displaced
12 29 October, 2024
 Other types of antagonism

Pharmacokinetic antagonism
Antagonist alters the effect of a compound by altering its ADME – e.g., can increase
clearance, alter metabolism, or alters half-life of a drug resulting in a lack of or
reduced pharmacological effect

e.g., grapefruit juice

Physiological antagonism
Where two compounds which have opposing effects which cancel each-other out.

e.g., Angiotensin II at low concentrations binds to the ATR type 1 receptor, which
results in vasoconstriction. At very high concentrations, it can also bind the ATR type
2 receptor which negates the effects of ATR type 1 activation.

Angiotensin II has a high affinity for the type 1 receptor, and a low affinity for the type
2 receptor, which is why it only does this at very high concentrations.
13 29 October, 2024
 A brief introduction to toxicity

Everything is toxic!
- Dose is what determines if something acts in a beneficial way, or if it is toxic

-e.g., insulin: can be used to control blood glucose levels, at high concentration
results in diabetic hypo and can lead to death!

- e.g., paracetamol: acts as an effective analgesic, at high concentrations it can kill
liver and kidney cells!

14 29 October, 2024
 LD50 and TD50

LD50

- The amount of drug needed to kill 50% of test cells or organisms treated
with the drug

TD50
- The amount of drug needed to cause toxicity in 50% of test cells or
organisms treated with the drug

- Toxic effect can be dysfunction or cell death

15 29 October, 2024
 Therapeutic index

Therapeutic index (TI) = LD50 or TD50 / ED50
Gives an indication of how likely a drug
is to have side effects or cause toxicity

For example – drugs where there is a
low TI (the blue and red lines are very
close together) require careful dosing as
toxicity can occur at therapeutic doses
(e.g., Warfarin)

For drugs where the therapeutic
concentrations are much lower than the
toxic ones (i.e., a large TI), you are less
likely to have toxicity occur in patients

16 29 October, 2024