Drug Metabolism

Question 1

What is the basis of drug metabolism - what does it do? (2 things)

Answer 1

1. Reduces or eliminates pharmacological / toxicological activity
2. Converts lipophilic chemicals to polar derivatives (readily excreted by kidneys)

Question 2

What is hepatic first pass metabolism?

Answer 2

Metabolic conversion of the drug before the drug enters the systemic circulation via the portal or enterohepatic circulation. Drug first passes through the liver before entering systemic circulation

Question 3

What is the route of blood circulation and thus drug circulation?

Answer 3

Enters the liver from the intestines through the portal circulation and then the blood is passed to the systemic circulation via the hepatic vein

Question 4

Why does first pass metabolism pose a problem for drugs and how can you overcome this problem?

Answer 4

• If a drug undergoes extensive first pass metabolism, only a small amount of active drug will be released into systemic circulation - leading to low biovailability
• To overcome this, you can administer the drug intravenously

Question 5

4 stages of drug pharmacokinetics?

Answer 5

1. Administration
2. Distribution
3. Metabolism
4. Excretion

Question 6

1) What type of reactions occur in phase 1 metabolism reactions?
2) What is the main purpose of phase 1 metabolism reactions?
3) How do phase 1 reactions affect the activity of drugs?

Answer 6

1)

• Oxidation / reduction creates new functional groups
• Hydrolysis unmasks functional groups

2)

• The functional groups added or unmasked act as points of attachment for phase 2 metabolism reactions

3)

• Inactivate drugs
• Activate drugs (by converting the prodrug into the active drug)

Question 7

Which enzyme system is very important in phase 1 metabolism reactions?

Answer 7

Cytochrome P450 system (CYP450)

Question 8

Where are CYP450 enzymes predominantly found?

Answer 8

In the endoplasmic reticulums of the liver

Question 9

How many CYP450 isozymes are involved in human drug metabolism?

Answer 9

57

Question 10

What is the overall reaction for CYP450 mediated oxidation in phase 1 metabolism reactions?

Answer 10

RH + NADPH + O₂ + H⁺ (+CYP450)⇒ ROH + NADP⁺ + H₂O

CYP450 catalyst

Question 11

1) What is the structure of CYP450 enzyme sites?
2) Outline the stepwise process of CYP450 mediated oxidation of a drug (RH)

Answer 11

1)

• Porphyrin ring
• Oxidised ‘ferric’ iron (Fe³⁺ )

2)

1. CYP450 binds the drug substrate
2. NADPH reduces the Fe³⁺ in CYP450 to the ferrous ion Fe²⁺
3. O₂ binds and oxidises the Fe²⁺ to Fe³⁺, O₂ is obviously reduced in this process to O₂^-
4. NADPH reduces Fe³⁺ again to Fe²⁺
5. Fe²⁺ reduces O₂^- again to form O₂^2- and Fe³⁺
6. One of the O atoms is cleaved from O₂ is then donated to the drug RH on the CYP450 complex to from ROH
7. The remaining O^2- ion is mopped up by 2H⁺ ions to form H₂O
8. The ROH is released from this drug-CYP450 complex. So the oxidation of RH to ROH is complete

Question 12

List 5 types of oxidation reactions

Answer 12

1. Aliphatic / aromatic hydroxylation
2. N-demethylation
3. O-demethylation
4. N-oxidation
5. Alcohol oxidation

Question 13

Give an example of aliphatic hydroxylation, what catalyses it and what type of reaction is it?

Answer 13

• Pentobarbitone hydroxylation - inactivates it
• CYP450 enzyme catalyses the reaction
• Oxidation - hydroxylation really though

Question 14

Give an example of aromatic hydroxylation, what catalyses it and what type of reaction is it?

Answer 14

• Acetamilide is hydroxylated to form paracetamol (prodrug → drug conversion)
• Oxidation - hydroxylation really though

Question 15

1) What is an N-demethylation reaction and what type of reaction is it?
2) What enzyme catalyses it?
3) Give an example of an N-demethylation reaction?

Answer 15

1)

• Form of oxidation reaction
• Oxidation of a methyl group on a nitrogen atom to remove the methyl group - often leaving as a formaldehye group

2)

• CYP450

3)

• Imipramine (+CYP450) ⇒ Desmipramine + HCHO (formaldehyde)

Question 16

1) What is an O-demethylation reaction and what type of reaction is it?
2) What enzyme catalyses it?
3) Give an example of an O-demethylation reaction

Answer 16

1)

• Oxidation reaction
• Oxidation of a methyl group on an O atom to remove the methyl group - often leaving as a formaldehyde group

2)

• CYP450

3)

• Codeine (+CYP450) ⇒ Morphine + HCHO (formaldehyde)

Question 17

1) What happens in an N-oxidation reaction and what type of reaction is it?
2) What enzyme catalyses it?
3) Give an example of an N-oxidation reaction

Answer 17

1)

• Form of oxidation reaction
• The lone pair on an N atom forms a dative bond with an O atom that is donated

2)

• Flavin-containing monooxygenase

3)

• Trimethylamine (+Flavin containing monooxygenase) ⇒ Trimethylamine-N-oxide

Question 18

1) What is the presentation of fish odour syndrome?
2) What is the pathophysiology behind fish odour syndrome?

Answer 18

1)

• Sweat and breath stinks of fish

2)

• Flavin-containing monooxygenase deficiency
• So no conversion of trimethylamine to trimethylamine-N-oxide by N-oxidation
• Trimethylamine-N-oxide is odourless whereas trimetylamine has the fish odour and so is sweated and breathed out

Question 19

1) Give an example of an alcohol oxidation reaction and outline the steps. What type of reaction is this?
2) What enzyme catalyses this reaction?
3) What order kinetics does the reaction follow?

Answer 19

1)

• CH₃CH₂OH (ethanol) (+ADH) ⇔ CH₃CHO (acetaldehyde) ⇔ acetic acid
• Oxidation reaction

2)

• ADH (alcohol dehydrogenase)

3)

• 0 order kinetics

Question 20

Where are the following enzymes found cellularly?

1) CYP450
2) Flavin-containing monooxygenase
3) ADH (alcohol dehydrogenase)

Answer 20

1)

• Smooth endoplasmic reticulum

2)

• Smooth endoplasmic reticulum

3)

• Soluble so cytoplasmic

Question 21

1) Give an example of a phase 1 reduction reaction
2) What type of enzyme carries out this reduction reaction?
3) Give 2 reasons why reduction mainly occurs in the GI

Answer 21

1)

• Prontosil ⇒ sulphanilamide + another amine

2)

• Reductases

3)

1. Low O₂ environment
2. Presence of bacterial reductases

Question 22

1) Give an example of a hydrolytic reaction and then talk through it
2) Give 2 types of enzymes that are involved in hydrolytic reaction

Answer 22

1)

• Procainamide (+an amidase) ⇒ S-aminobenzoic acid + another amine
• Procainamide is a local anaesthetic and is metabolised around the amine functional group to generate a COOH acid (S-aminobenzoic acid), and an amine

2)

• Esterases - hydrolysis of an ester
• Amidases - hydrolysis of an amide

Question 23

Phase 1 reactions introduce functional groups to drugs, list some functional groups that they’d introduce

Answer 23

-OH, -NH₂, -SH, or -COOH

Question 24

What is one problem with phase 1 metabolism reactions

Answer 24

Sometimes produce toxic metabolites

Question 25

What are the general principles behind phase 2 metabolism reactions?

Answer 25

• Conjugates are mostly pharmacologically inactive
• Less lipid soluble
• Easier to excrete

Question 26

List the different types of phase 2 metabolism reactions and the conjugating agents for these reactions and the functional groups that they target

Answer 26

1. Glucoronidation - UDPGA - OH, COOH, NH₂, SH
2. Acetylation - Acetyl CoA - OH, NH₂, COOH
3. Amino acid conjugation - Glycine, Glutamine, Taurine - COOH
4. Methylation - S-adenosyl-methionine - OH, NH₂
5. Sulphation - 3’-phosphoadenosine-5’-phosphosulphate - OH, NH₂
6. Glutathione conjugation - glutathione - electrophiles

Question 27

1) What is a glucoronidation reaction including what type of reaction it is and a general equation (using OH as the targed functional group)?
2) What is the conjugating agent?
3) What is the enzyme?
4) Where is the product of the reaction often found?
5) Give an example reaction

Answer 27

1)

• Phase 2 metabolism reaction
• ROH + UDPGA ⇒ RO-D-glucoronide

2) UDPGA
3) Glucuronyl transferase
4) Often found in the bile as large molecular weight molecules are excreted in the bile and products of glucuronidation conjugation are often large molecular weight molecules
5) Ibuprofen + UDPGA (+glucuronyl transferase) ⇒ ibuprofen glucuronide conjugate

Question 28

1) What is an acetylation reaction including what type of reaction it is and a general equation (using NH₂ as the targed functional group)
2) What is the conjugating agent?
3) What is the enzyme?
4) What often happens with the products of the reaction?
5) Give an example reaction

Answer 28

1)

• Phase 2 conjugation reaction
• Acetyl group (CH₃CO) transferred to an electron rich atom (N, O or S)
• RNH₂ + CH₃COSCoA (Acetyl CoA) ⇒ RNHCOCH₃ + CoASH

2)

• Acetyl CoA

3)

• Acetyl transferase

4)

• The acetylated derivative of the drug then goes into intermediate metabolism

5)

• Acetylation of sulphanilamide

Question 29

1) What is a methylation reaction including what type of reaction it is and a general equation using RZH as the drug, Z representing the part of the possible functional groups, and list the atoms that Z could represent?
2) What is the conjugating agent?
3) What is the enzyme?
4) Give an example reaction

Answer 29

1)

• A phase 2 conjugation reaction
• RZH + S-adenosylmethionine (+methyltransferase )⇒ RZ-CH₃ + S-adenosylhomocysteine
• Z could be N, O, S

2)

• S-adenosylmethionine

3)

• Methyltransferase

4)

• Noradrenaline + S-adenosylmethionine (+methyltransferase) ⇒ Adrenaline + S-adenosylhomocysteine

Question 30

1) What is an sulphation reaction including what type of reaction it is and a general equation using ROH as the drug (assuming OH functional group)?
2) What is the conjugating agent?
3) What is the enzyme?
4) Give an example reaction

Answer 30

1)

• Phase 2 conjugation reaction

2)

• PAPS

3)

• Sulfotransferases

4)

• Paracetamol + PAPs (+sulfotransferase) ⇒ something + PAP

Question 31

5 importances of drug metabolism?

Answer 31

1. Decreases biological half lives of drugs
2. Decreases duration of exposure
3. Prevents bioaccumulation
4. Potency / duration of biological activity of the chemical can be altered
5. The pharmacology / toxicology of the drug can be governed by its metabolism