Module 4

Question 1

Enzyme-mediated alteration of a drug’s structure

Answer 1

Metabolism

Question 2

What are the different sites of drug metabolism?

Answer 2

Liver, intestine, stomach, kidney, intestinal bacteria

Question 3

What is another term for metabolism?

Answer 3

biotransformation

Question 4

What is the primary site of drug metabolism?

Answer 4

The liver

Question 5

What are some common exogenous toxins?

Answer 5

Meat, wine/alcohol, cigarettes, coffee, drugs, vegetables

Question 6

What are the different therapeutic consequences of drug metabolism?

Answer 6

Increase water solubility of drugs to promote their excretion
Inactivate drugs
Increase drug effectiveness
Activate pro-drugs
Increase drug toxicity

Question 7

What are some essential endogenous molecules provided by metabolism?

Answer 7

Vitamin D, bile acids, cholesterol, steroids, bilirubin

Question 8

In most clinical situations, drug metabolism follows ____ order kinetics

Answer 8

first

Question 9

Describe first order kinetics.

Answer 9

There is more enzyme than drug; therefore drug metabolism is directly proportional to the concentration of free drug

Question 10

In first order kinetics, a constant _______ of drug is metabolized per unit time.

Answer 10

fraction

Question 11

Describe zero order kinetics.

Answer 11

Plasma drug concentration > enzymes

Drug metabolism is constant over time

Question 12

In zero order kinetics, a constant ________ of drug is metabolized per unit time.

Answer 12

amount

Question 13

What is the best example of zero order kinetics?

Answer 13

Ethanol

Question 14

In this metabolism kinetics, drug metabolism is independent of drug concentration.

Answer 14

Zero order

Question 15

Where can first pass metabolism occur?

Answer 15

Hepatocytes in the liver
intestinal enterocytes
Stomach
Intestinal bacteria

Question 16

What is the result of 1st pass metabolism?

Answer 16

A decreased amount of parent drug that enters the systemic circulation

Question 17

What is an example of first pass metabolism in the stomach?

Answer 17

Alcohol –> Alcohol DH –> acetaldehyde

Question 18

High ER drugs

• have _____ oral bioavailability (-%)
• PO does are usually ______ than IV doses
• _____ change sin hepatic enzyme activity produce _______ changes in bioavailability
• ______ susceptible to drug-drug interactions

Answer 18

low - 1-20%
higher (much)
small, large
very

Question 19

Low ER drugs

• have _____ oral bioavailability
• PO doses are ______ to IV doses
• ______ changes in hepatic enzyme activity have _______ effect on bioavailability
• __ ______ susceptible to drug-drug interactions
• Take ______ passes through the liver via the systemic circulation before they are completely metabolism

Answer 19

high
similar
small, little
not very
many

Question 20

What are the two phases of drug metabolism?

Answer 20

Phase I and Phase II

Question 21

Phase I metabolism
- Convert _______ drugs to more ______ molecules by ________ or ________ polar functional groups such as ______ or ______

Answer 21

lipophilic, polar, introducing or unmasking

hydroxyl, amines

Question 22

What are the different types of reactions in phase I metabolism?

Answer 22

Hydrolysis, oxidation, reduction

Question 23

Phase I metabolism is mediate by what enzymes?

Answer 23

Cytochrome p450 enzymes (main), esterases, dehydrogenases

Question 24

Describe the activity of the resulting metabolites of phase I metabolism.

Answer 24

More active, less active or equally as active as the parent drug

Question 25

Phase II metabolism

- Increases the _______ of ________ drugs by _______ reactions

Answer 25

polarity, lipophilic, conjugation

Question 26

What are different conjugates of phase II metabolic reactions?

Answer 26

Glucuronic acid, sulfate, acetate or amino acids

Question 27

Describe the activity of metabolites of phase II metabolism.

Answer 27

Less active than the parent drug - except morphine-6-glucuronide (more potent analgesic than morphine)

Question 28

Where is the intracellular site of phase I drug metabolism?

Answer 28

Phase I drug metabolizing enzymes are localized to the smooth endoplasmic reticulum

Question 29

Where is the intracellular site of phase II drug metabolism?

Answer 29

Phase II drug metabolizing enzymes are localized predominantly in the cytosol of the cell; except with glucuronidation, which is localized to the smooth ER

Question 30

Largest family of drug metabolizing enzymes.

Answer 30

CYPs (Cytochrome P-450)

Question 31

The majority of drug metabolism in the body is performed by _______ CYP enzymes.
CYPs are the predominant phase ___ drug metabolizing enzyme system.

Answer 31

hepatic

phase I

Question 32

How do CYP enzymes work, i.e. metabolize?

Answer 32

Oxidize drugs by adding oxygen, producing water as a by-product

Question 33

How does malnutrition affect CYP activity?

Answer 33

Can decrease it as these enzymes require dietary protein, iron, folic acid and zinc for full activity

Question 34

Describe the nomenclature of CYP enzymes.

CYP3A4 for example.

Answer 34

3 - family
A - sub-family
4 - isozyme

Question 35

_________ metabolizes the largest fraction of currently marketed drugs.

Answer 35

CYP 3A4

Question 36

What are the different phase II drug metabolizing enzymes?

Answer 36

UDP-glucuronosyltransferases (UGTs)
Sulfotransferases (SULTs)
Glutathione S Transferases (GSTs)
N-acetyltransferases (NATs)
Thiopurine Methyltransferases (TPMT)

Question 37

Which phase II drug metabolizing enzyme type metabolizes drugs the most?

Answer 37

The fraction of drugs metabolized is equally split between UGTs, SULTs, GSTs, and NATs

Question 38

Where are UGTs localized?
What do they catalyze transfer or?
Describe the effect of the enzyme on the parent drug.
How many UGT enzymes are there in humans?

Answer 38

Smooth ER
glucuronic acid
Glucuronidated drugs are more polar and more easily excreted
19

Question 39

Where are SULTs localized?
What do they add?
Describe the metabolite.
How many SULT enzymes are there in humans?

Answer 39

Cytosol
Add sulfate to hydroxyl groups of drugs
Sulfated drugs are more polar and more easily excreted
11

Question 40

Where are GSTs localized?
What do they add?
What is the result of transfer?
How many GSTs are there in humans?

Answer 40

Cytosol (main) or microsomal
Add GSH (glutathione)
Intracellular anti-oxidant –> causes a reactive drug to be less toxic
20+

Question 41

Where are NATs localized?
What do they add?
What are they subject to?
How many are there in humans?

Answer 41

Cytosolic
Acetyl group from Acetyl-CoA
Subject to genetic polymorphisms - variability in drug response
2 - NAT1 and NAT2

Question 42

Where are TPMTs localized?
What do they add?
What are they subject to?

Answer 42

Cytosolic
Add methyl from S-adenosylmethionine
Subject to genetic polymorphisms, can have dramatic effects on drug safety

Question 43

What are the major factors that affect drug metabolism?

Answer 43

Age
drug interactions
disease state
Genetic polymorphisms

Question 44

Describe how age affects metabolism.

Answer 44

Infants have almost no hepatic CYP activity - takes babies approx. 1 year after birth until they have a reasonable level of drug metabolizing enzymes
By age 2 - same level as adults

Question 45

Process where a cell synthesizes an enzyme in response to a drug or other chemical.

Answer 45

Enzyme induction

Question 46

Consequence of CYP induction.

Answer 46

Increased drug metabolism

Question 47

What are consequences of increased drug metabolism?

Answer 47

Decreased plasma concentration
Decreased drug activity
Increased drug activity

Question 48

_______ induces some drug metabolizing enzymes

Answer 48

smoking

Question 49

What is the consequence of CYP inhibition?

Answer 49

Decreased drug metabolism

Question 50

Decreased drug metabolism has the following consequences.

Answer 50

Higher plasma concentration
Increased therapeutic effect
Increased drug toxicity

Question 51

What are diseases that decrease CYP activity?

Answer 51

Liver disease
kidney disease
inflammatory diseases
infection

Question 52

SNPs affect what?

Answer 52

the protein

Question 53

What are the common phase I SNPs?

Answer 53

CYP2C9

CYP2D6

Question 54

What are the common phase II SNPs?

Answer 54

UGT1A1

NAT2

Question 55

CYP2C9
metabolizes what?
Polymorphism results in what?
Describe the effect on dosage.
What may occur if the dosage is not altered?

Answer 55

Metabolizes warfarin
Polymorphism results in decreased activity/metabolism
Dosage must be lowered in these patients, else extensive bleeding may occur

Question 56

CYP2D6
Metabolizes what?
What phenotypes are possible?

Answer 56

Codeine to morphine

URM, EM, IM, PM

Question 57

Describe EM.

Answer 57

Extensive metabolizers - considered to have normal enzymatic activity

Question 58

Describe IM. PM.

Answer 58

IM - lower metabolic activity

PM - almost no metabolic activity (i.e. no pain relief)

Question 59

Describe URMs.

Answer 59

Ultra-rapid metabolizers - significantly increased CYP2D6 activity - possess multiple copies of CYP2D6 gene

Question 60

UGT1A1
Metabolizes what?
Polymorphisms cause what?
What are patients with the polymorphism at increased risk of?

Answer 60

Metabolizes SN-38 - anti-cancer compound (inactivates)
Polymorphisms decrease its activity
Patients with UGT1A1 are at increased risk for diarrhea and dose-limiting bone marrow suppression

Question 61

NAT2
Metabolizes what?
Number of polymorphisms here?
Possible phenotypes?

Answer 61

Metabolizes isoniazid (TB), caffeine, cancer causing chemicals
23+
Rapid or slow acetylators

Question 62

Describe slow acetyaltors and the effect with isoniazid.

Answer 62

More susceptible to isoniazid toxicity (neuropathy, hepatotoxicity) - higher risk of developing certain types of cancers