Lecture 4 - Drug Individualization

Question 1

what is a gene

Answer 1

segment of dna that contains information for encoding a protein

Question 2

what are SNPs

Answer 2

single nucleotide polymorphism

eg rs10516526

Question 3

what is allele

Answer 3

different DNA sequence at a locus

eg rs10516526 G

Question 4

what is a genotype

Answer 4

pair of alleles at particular locus

eg rs10516526 GG, GA or AA

Question 5

what is a phenotype

Answer 5

the observable property of an organism; a trait such as height, weight, medical codition etc

Question 6

what is haplotype

Answer 6

a set of dna variations, or polymorphisms, that tend to be inherited together

all genotype in a chromosome

Question 7

what is variability (Sir william osler)

Answer 7

the law of life, and as no two faces are the same, so no two bodies are alike, and no two individuals react alike and behave alike under the abnormal conditions which we know as disease

Question 8

what is diversity

Answer 8

factors that make individuals or subgroups of a population different from the rest

Question 9

describe possible different respones of same drug

Answer 9

drug toxic bit beneficial
drug toxic but not beneficial
drug not toxic and not beneficial
drug not toxic and beneficial

Question 10

factors of environment that can affect patient drug response

Answer 10

-diet (drug-food interaction)
-lifestyle (“don’t do this”, eat with or without food, keep med cold or a certain temp)
-socioeconomics
-others

Question 11

factors of biology that can affect patient drug response

Answer 11

age, sex, others

Question 12

genetic factors that can affect patient drug response

Answer 12

we don’t know these factors unless we ASK the patient

Question 13

dosage statistics

Answer 13

means and medians derived from clinical trial
- relatively homogenous populations
- caucasian, adult, no co morbidities, middle of the curve

(this is why it is not always right for the whole population)

Question 14

pharmacological outcomes based on statistics

Answer 14

derived from clinical trials
altered if post marketing surveillance data indicate a need

Question 15

what to remember about the results on pharmacological statistics

Answer 15

remember: many patients recieve inappropriate drugs or dosage of drugs because they are not “middle of the curve”

Question 16

what is pharmacogenomics

Answer 16

the study of how genes affect a persons response to drugs

Question 17

what are the goals of pharmacogenomics

Answer 17

getting the right dose of the right drug to the right patient at the right time

enhances drug efficacy and reduces drug toxicity

Question 18

identify the genetic variations and what can be affected

Answer 18

enzyme, transporter, receptor, disease

silent:no functional effect
( can have changes in the gene but nothing actually shows)

Question 19

how does genetic variation of a drug relate to population

Answer 19

some drugs are more effective in a certain group
(some drugs can be racially exclusive)

Question 20

how are genetic variations relavent to a drug

Answer 20

-affect PK or PD
-resulted in drug efficacy, toxicity, or drug dosing
- has no effect

Question 21

how are genetic variations relevant to a disease

Answer 21

• increase or decrease drug susceptibility or condition
  -utility as a screening or diagnostic tool

Question 22

how are PGX and metabolism classified

Answer 22

phase I and phase II reactions

Question 23

modifications and examples of of phase I reaction

Answer 23

types of modifications:
- oxidation
- hydroxylation
- reduction
- hydrolysis

Examples:
- P450 CYPs

Question 24

modifications and examples of phase II reaction

Answer 24

modifications: conjugation

examples
- UGT: glucuronidation (adding glucaronic acid to large molecule to increase- easily soluble in blood water)
- NAT: acetylation (reduces polarity)
- MT: methylation (inactivated process)
- GST: gluthione conjugation
SULT: sulphation

Question 25

types of genetic variations and enzymatic activity ( phenotypes)

Answer 25

extensive metabolizers, poor metabolizer, intermediate metabolizer, ultra rapid metabolizer

Question 26

what is an extensive metabolizer

Answer 26

(EM or WT)
- individuals who are homozygous for the two alleles coding for “normal” enzyme function
(“normal” is middle of everyone)

Question 27

what is a poor metabolizer

Answer 27

PM
- individuals who are homozygous with two variant alleles resting in inactive or absent enzymes

(cant metabolize- reduced or none)
*has certain enzymes

Question 28

what is an intermediate metabolizer

Answer 28

IM
those who are heterozygous manifest phenotype with reduced function of the heterozygous EM
(low but not too low)

Question 29

single gene copy of metabolic enzyme CYP2D6 in an individual will lead to what phenotypes

Answer 29

unstable enzyme formation and decreased metabolism of the parents drug

normal metabolism of the parent drug

altered metabolism and this formation of other metabolites

Question 30

what is an ultra rapid metabolizer

Answer 30

UM
- resulted from gene duplication or multiplication

Question 31

Facts about PGx of metabolizing enzymes

Answer 31

*1 is normal- functioning enzyme, person able to metabolize well

*2, 3+ is not normal and requires to be looked into

if a person has a gene deletion, they have no mRNA to make a specific enzyme and therefore will not have the enzyme to break down specific drug so… you wont give the person that drug because if with the gene for it they don’t have the enzyme to metabolize it

( if a person has *2N you need to determine if its n=toxic or not- they have two copies of the same gene meaning ultra metabolism so you may want to decrease the dose or not use a drug

Question 32

what does a gene deletion do to metabolism

Answer 32

creates no mRNA so no specific enzyme is produced leading to inability to metabolize

Question 33

what can a single gene copy lead to

Answer 33

could have mRNA that doesn’t code for a protein- leading to no metabolism
could have a unstable enzyme made by mRNA- leading to decreased metabolism of parent drug
could have- normal enzyme made leading to normal metabolism of parent drug
could have altered substrate specificity leading to other metabolites

Question 34

what does ABC stand for

Answer 34

ATP binding cascade

Question 35

ABC-> MDRI gene pathway

Answer 35

(more common- and you want to know this before prescribing a drug)

ABC—–> ABCB——> MDR1——> reduced expression——–>higher drug plasma level (eg digoxin) ——-> C1236T, C3435T, G2677T/A

( so with digoxin, the levels in the plasma rise to more than what you think you are prescribing)

Question 36

what does MDR1 mean, what is the meaning if you are positive

Answer 36

Multidrug Resistance 1
it is drug sensitivity as a result of a genetic variant that can cause severe or life threatening complications after taking particular medication and specific doses

Question 37

Lesson from tamoxifen patient case (efficacy)

Answer 37

(example in breast tissue)
- it is metabolized before it can act
- enzyme TAM can act then CYP2D6 enzyme acts (hydrolyzes) and turn it into its active form of endoxifen ( or CY first then different enzyme works to demethylate)
- drug must be demethylated (by other enzymes working behind CYP2D6), and hydrolyzed (CYP2D6) before it is in its active form

-CYP2D6- common to be mutated in people (CYP2C9 is the mutation)

Question 38

ER antagonist and Breast Cancer Efficacy

Answer 38

overall recurrence rate
- EM: 14.9%
-IM 20.9%
***- PM 29%

All cause mortality rates
-EM:14.9%
-IM: 18%
***- PM: 22.8%

Question 39

alternative treatments for breast cancer

Answer 39

aromatase inhibitors
- blocks aromatase enzyme (converts androgen into estrogen)
- anastrazole
- letrozole

Question 40

Warfarin case of efficacy and toxicity

Answer 40

initial dose:
- initial dose (2-10mg) based on medical need and factors that will alter the PK or PD of warfarin like OTC products, green leafy, cranberry juice, etc (must check with patient)

maintenance dose:
adjust the maintenance dose by X% up or down based on INR (internationalized normalized ratio- how fast it takes blood to clot based on blood test): caution about factors that will alter the PK and PD of warfarin, OTC products, green leafy, cranberry juice, etc

Question 41

Warfarin and genetic variations

Answer 41

S-warfarin is more potent than R- warfarin (more active in stopping coagulation)

VKOR enzyme is a vitamin K opoxide reductase that reduced vitamin K is needed to start the pathway (factors that work together for blood clotting) and then will stay in the bod as the active form

activation = coagulation

–>warfarin blocks the VKOR enzyme from activating these factors that cause coagulation

Question 42

what is AA

Answer 42

more sensitive- should recieve lower dose

Question 43

what is G/G

Answer 43

least active, least sensitive, needs more dose

Question 44

what is P2C9

Answer 44

poor metabolizer

Question 45

Ranges of expected maintenance of coumadin based on CYP2C9 and VKORC1 genotypes

Answer 45

( so these are the pathways that activate warfarin then block the pathway enzyme that causes coagulation)

GG allele- needs 5-7mg if 1/1 or 1/2
but if patient is 2/3 they can only handle 3-4 mg
or 3/3 ( worst) then they can only handle .5-2 mg so if they are given the “normal” dose they will have excessive bleeding which is not what we want

Question 46

Irinotecan genetic variant and effect

Answer 46

(example of PGX application)

Medication = Irinotecan
Genetic variant/marker = UGT1A1*28
Effect = Neutropenia

Question 47

Codeine (prodrug) genetic variant and effect

Answer 47

(example of PGX application)

Medication= Codeine (prodrug)
Genetic Variant/Marker = CYP2D6
Effect =
PM- no analgesic effect
UM- respiratory depression

the genetic marker demethylates and removes hydroxylate making it into morphine essentially

Question 48

difference between codeine (prodrug) and morphine

Answer 48

codeine is prodrug of morhpine-

codeine ha a hydroxyl group on aromatic ring
morphine has a hydroxyl by itself

Question 49

clopidogrel (prodrug) variant and effect

Answer 49

Medication= clopidogrel (prodrug)
Genetic variant/ marker = CYP2C19 (low C19 means no activation so no drug activity)
Effect= PM- no drug activity

Question 50

What does transcription?

Answer 50

Process by which information from DNA strand, is coupled into a new mRNA molecule

Question 51

what is translation?

Answer 51

Process by which a cell makes proteins, using the genetic information carried in mRNA