ReceptorTheory23-24bb.pptx

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Pharmacodynamics 2: Receptor Theory

Robert Sims HA209
[email protected]
 Lecture Structure
Receptor theory

Concentration-effect / Dose-response curves; affinity, efficacy

Agonists, antagonists, allosteric modulators

Therapeutic range and therapeutic index
 The concept of receptors
Receptor theory probably the main scientific theory of pharmacology

Term “receptor” from Ehrlich; “side chain” chemical binding theory
from immunology

Langley (1878, 1905): chemical binding theory for all drugs

Developed later by others, e.g. Clark & Gaddum (1920s-1930s);
models of receptor actions predated discovery of receptors

Firmly established by Sir James Black (1965; propranolol)
 “Target” / “Receptor”

“Drug receptor” is sometimes used to describe anything a drug
interacts with to cause an effect…

…these days, the term “drug target” is preferable instead.

Better to use “receptor” only to mean proteins that recognise and
respond to endogenous signalling mediators

However, drug-receptor interactions key to understanding
pharmacology
 Binding sites

Receptors have an active (“orthosteric”) binding site for their
endogenous, activating ligand (agonist)
Binding sites have high specificity to
endogenous agonists

Ligand binding induces conformational
changes to activate receptor

May also contain secondary (“allosteric”)
binding sites for other ligands Binding site of the muscarinic
acetylcholine receptor
 Affinity & efficacy
Ligand-receptor
Ligand Receptor complex
A + R A R

AFFINITY: EFFICACY:
The ability of a ligand to The ability of a ligand to
bind to a target generate an effect

Together, affinity and efficacy determine potency; i.e. the ability
of a ligand to generate a response
 Dose – response relationships
Effect / Response (%) 100 100

Effect / Response (%)
50 50
x-axis in
logarithmic
scale
0 0
[Ligand] Log10 [Ligand]

Concentration-effect curve when measuring effect of drug at target site

Dose-response curve when measuring the physiological response to a systemically
administered drug
 D-R curves – affinity and efficacy

100
A B Ligand B has the same
Effect / Response (%)

efficacy as ligand A, but a
lower affinity

50
C
Ligand C has the same affinity
as ligand A, but a lower
efficacy
0
log10[Ligand]
 EC50 & Potency

Emax Emax maximal effect
100

EC50: the concentration at which
Effect / Response (%)

the effect is half maximal

50 Potency is the concentration of
drug required to cause an effect;
measured by EC50.

EC50 (IC50 when measuring potency in
0
log10[Ligand] terms of response reduction.)
 Full & partial agonists
Full agonists: induce a maximal response (100% of the
endogenous agonist)
Agonist
A + R A R

Partial agonists: induce a submaximal response (