1. Patrick: An Introduction to Medicinal Chemistry 6e
Chapter 7
ENZYMES AS
DRUG TARGETS
Modified

2. 1. Overall Process of Enzyme Catalysis
E + P S E ES P E EP
Notes
Binding interactions must be strong enough to hold the substrate sufficiently long for the reaction to occur
Interactions must be weak enough to allow the product to depart
Implies a fine balance
Designing molecules with stronger binding interactions results in enzyme inhibitors which block the active site

3. 2. Reversible Inhibitors
Notes
Inhibitor binds reversibly to the active site
Intermolecular bonds are involved in binding
The inhibitor undergoes no reaction
Inhibition depends on the strength of inhibitor binding and inhibitor concentration
Substrate is blocked from the active site
Increasing substrate concentration reverses inhibition
Inhibitor likely to be similar in structure to substrate, product or cofactor

4. 2. Reversible Inhibitors
ACE Inhibitors
Examples
Diuretics
Protease inhibitors
Statins
Sulphonamides
Kinase inhibitors
modified
Antidepressants

5. 3. Irreversible InhibitorsOH X OH X O
Covalent Bond
Irreversible inhibition
Notes
Inhibitor binds irreversibly to the active site
Covalent bond formed between the drug and the enzyme
Substrate is blocked from the active site
Increasing substrate concentration does not reverse inhibition
Inhibitor likely to be similar in structure to the substrate

6. 3. Irreversible Inhibitors
Examples
Nerve gases
Penicillins
Treatment of alcoholism
Cephalosporins
Proton pump inhibitors
Anti-obesity
modified

7. 3. Irreversible Inhibitors
Examples - orlistat
Orlistat
Pancreatic lipase
Ser
Pancreatic lipase
Ser
Pancreatic lipase
Ser
Middle and right hand structures refreshed
Notes
Orlistat is an anti-obesity drug that inhibits pancreatic lipase
The enzyme is blocked from digesting fats in the intestine
Fatty acids and glycerol are less absorbed as a result
Leads to reduced biosynthesis of fat in the body

8. 4. Allosteric Inhibitors
(open)
ENZYME
Enzyme
Induced
fit
Active site
unrecognisable
Active site
ACTIVE SITE
(open)
ENZYME
Enzyme
Allosteric
binding site
Allosteric
inhibitor
Notes
Inhibitor binds reversibly to the allosteric site
Intermolecular bonds are formed
Induced fit alters the shape of the enzyme
Active site is distorted and is not recognised by the substrate
Increasing substrate concentration does not reverse inhibition
Inhibitor is not similar in structure to the substrate

9. 4. Allosteric Inhibitors
Example: 6-Mercaptopurine
Notes
Inhibits the first enzyme in the biosynthesis of purines
Blocks the biosynthesis of purines and DNA
Used in the treatment of leukaemia

10. 5. Transition-state Inhibitors
Notes
Drugs designed to mimic the transition state of an enzyme-catalysed reaction
Transition-state inhibitors are likely to bind more strongly than drugs mimicking the substrate or product
Transition states are high energy, transient species and cannot be isolated or synthesised
Drug design can be based on reaction intermediates which are closer in character to transition states than substrates or products
Design a drug that mimics the stereochemistry and binding properties of the reaction intermediate, but is stable.

11. 5. Transition-state Inhibitors
Example: Renin inhibitors
Renin
Angiotensinogen
Angiotensin I
Angiotensin II
Angiotensin
converting
enzyme (ACE)
Notes
Renin inhibitors block synthesis of angiotensin I and II
Angiotensin II constricts blood vessels and raises blood pressure
Renin inhibitors act as antihypertensives (lower blood pressure)

12. 5. Transition-state Inhibitors
Example: Renin inhibitors
Reaction mechanism O A s p
Renin H O H A s p
Renin + O H A s p
Renin
Water substrate intermediate and products refreshed
Notes
Two aspartyl residues involved in enzyme-catalysed reaction
Tetrahedral intermediate involved

13. 5. Transition-state Inhibitors
Example: Renin inhibitors
Aliskiren
Reaction
intermediate
Hydroxyethylene
transition-state
mimic
Structures refreshed
Notes
Aliskiren contains a hydroxyethylene transition-state mimic
Mimics the tetrahedral geometry of the reaction intermediate
Mimics one of the hydroxyl groups (binding group)
Stable - no leaving group present

14. 5. Transition-state Inhibitors
Other examples
ACE inhibitors
Statins
Protease inhibitors
Modifed
All structures refreshed

15. 6. Suicide Substrates Notes
Agents which are converted to irreversible inhibitors by the enzyme-catalysed reaction
React with the target enzyme once formed
Example
Trifluoroalanine as a suicide substrate of alanine transaminase
Inhibition
refreshed
Transaminase enzyme

16. 6. Suicide Substrates Reaction mechanism - alanine transaminase Base
Enzyme
Condensation +
Hydrolysis
Last two structrues redrawn as well as first
Pyridoxal phosphate refreshed

17. 6. Suicide Substrates Inhibition mechanism - alanine transaminase Base
Enzyme
Condensation Nu
Enzyme
Pyridoxal phosphate refreshed H+

18. 6. Suicide Substrates Tienilic acid Notes Marketed as a diuretic
Withdrawn due to interaction with cytochrome P450 enzymes
Agent acts as a suicide substrate on cytochrome P450 enzymes

19. Enzyme alkylated and inhibited
6. Suicide Substrates
Tienilic acid
Tienilic acid
Oxidation
Cyt P450
NADPH O2
Suicide substrate
Alkylation
-H2O
Hidden caption at the end
Alltwo structures refreshed
Enzyme alkylated and inhibited

20. 7. Enzyme targets for useful medications
7.1 Antibacterial agents
Dihydropteroate synthetase, transpeptidase
7.2 Antiviral agents
HIV reverse transcriptase, HIV protease, viral DNA polymerase
7.3 Anti-inflammatory agents
Cyclooxygenase
7.4 Cholesterol lowering agents
HMG-CoA reductase
7.5 Antidepressants
Monoamine oxidase
7.6 Anticancer agents
Tyrosine kinase, dihydrofolate reductase, thymidylate synthase, aromatase etc

21. 7. Enzyme targets for useful medications
7.7 Antihypertensive agents
Renin, angiotensin converting enzyme
7.8 Treatment of male erectile dysfunction
Phosphodiesterase
7.9 Anti-gout agents
Xanthine oxidase
7.10 Anti-ulcer agents
Proton pump
7.11 Alzheimers disease
Cholinesterases
7.12 Diuretics
Carbonic anhydrase