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PharmacoGenomics – personalized medicine.
Alina Starovolsky
DNA chip UsageDNA chip Usage::
SNP: “snip”SNP: “snip”Single Nucleotide PolymorphismsSingle Nucleotide Polymorphisms
One-letter variations in the DNA sequence.SNPs contribute to differences among individuals.The majority have no effect, others cause subtle differences in countless characteristics, including risk for certain diseases.
Human genome diversityHuman genome diversity
• 28% of the human genome are coding genes. (all the rest is “junk DNA”).
• 1.4% are the exons.• 30,000 genes.• 40% of then have alterative splicing and
thus there are more genes.
• A multi-country effort (Japan, the United Kingdom, Canada, China, Nigeria, and the United States) to identify and catalog genetic similarities and differences in human beings.
• Analyzing DNA from populations with
African, Asian, and European ancestry. Together, these DNA samples should enable HapMap researchers to identify most of the common haplotypes that exist in populations worldwide
Polymorphism vs. Polymorphism vs. mutationmutation
• Polymorphism is defined as a variation in more than 1% of the population.
• Mutations Rare differences which occur in less than 1% of the population (usually much less than 1%).
• Typically, mutations have been discovered in coding sequences of genes causing rare inherited diseases.
• In Barley (שעורה): 1 out of 131 nucleotides is different between individuals (was calculated on 75 different genes).
• In 4 types of chickens in comparison to their ancestor it was found that every 200 nucleotides there is an SNP.
Polymorphism in humansPolymorphism in humans
• Two random humans are expected to differ at approximately 1 in 1000 nucleotide pairs, whereas two random chimpanzees differ at 1 in 500 nucleotide pairs.
• This is interpreted to mean that the human species is relatively young, perhaps too young to evolve subspecies.
• However, with a geonome of approximate 3 billion nucleotides, on average two humans differ at approximately 3 million nucleotides.
• Most of these SNPs are neutral, but some are functional and influence the phenotypic differences between humans. It is estimated that about 10 million SNPs exist in human populations.
• Amino acid-altering non-synonymous coding-region SNPs would be rare and harder to be found because of expected selection against them in human evolution.
PharmacogenomicsPharmacogenomics “Medicine tailored to the individual”“Medicine tailored to the individual”
•The Study of how genetic differences influence variability in patients’ responses to drugs.
•Personalized drugs.
• Genetic polymorphisms in drug-metabolizing enzymes, transporters, receptors, and other drug targets have been linked to inter-individual differences in the efficacy and toxicity of many medications.
• Pharmacogenomic studies explain the inherited nature of these differences in drug disposition and effects.
SNPs roolSNPs rool
The DNA ChipThe DNA Chip::
SNP GenotypingSNP Genotyping
• Using DNA chips, it is possible to measure many thousands of SNPs simultaneously in a small sample from a patient.
• Can compare “genotypes” for SNP markers linked to virtually any trait.
Examples traits – complex Examples traits – complex and non complex diseases.and non complex diseases.
• There are a number of classic “genetic diseases” caused by mutations of a single gene.
• There are also many diseases that are the result
of the interactions of many genes:– Athsma, heart disease, cancer.
• Each of these genes may be considered to be a risk factor for the disease.
• Groups of SNP markers may be associated with a disease without determining mechanism.
• Pharmacogenomics – personalized drugs.
Soon it will be able to profile variations between individuals’ DNA to predict responses to a particular medicine.
It will provide information on the likelihood of efficacy and safety of a drug for an individual patient
It Will change the practice and economics of medicine (Faster clinical trials. Less drug side effects.)
The FutureThe Future
The ‘roots’ of The ‘roots’ of pharmacogeneticspharmacogenetics
Clinical observations of inherited differences in drug effects first documented in the 1950s.
e.g. In African American population it was found that in response to the anti-malarial drug primaquine, they developed hemolyitic anemia due to polymorphic alleles of Glucose-6-phosphate dehydrogenase.
D-glucose 6-phosphate + NADP+ = D-glucono-1,5-lactone 6-phosphate + NADPH (energy).
Without enough normal G6PD to help red blood cells get rid of harmful oxidative substances, they can be damaged or destroyed, leading to a condition known as hemolytic anemia.
The molecular genetic basis for the inherited traits began to be revealed in the late 1980s, with the initial cloning and characterization of a polymorphic human gene encoding the drug-metabolizing enzyme debrisoquin hydroxylase (CYP2D6).
Cytochrome P450Cytochrome P450
• Homozygousity for alleles of the Cytochrome P450 gene CYP2D6 (in ~10% of the Caucasian population) lead to dangerous vacular hypotension when receiving the hypertension drug debrisoquine.
About schizophreniaAbout schizophrenia• Does not mean split personality!• Afflicts approximately 1% of the world’s
population.• US spends 40 billion $ per year. M=F for rate, onset: male(15-25), female(25-
35).• 10% of the people with the disorder commit
suicide.• Wide spectrum of illness Characterized by
two categories of symptoms: - positive symptoms - negative symptoms
Negative symptoms:Negative symptoms:
Flattened emotional response.
Lack of initiative and persistence.
Anhedonia (inability to experience pleasure).
Social withdrawal.
Positive symptoms:Positive symptoms:(more responsive to drug treatment)
Thought disorders. Delusions. Hallucinations. disorganized
speech. (e.g. frequent incoherence)
grossly disorganized or catatonic behavior.
What causes schizophreniaWhat causes schizophrenia??
The Genetic Risk – known to “run in the family”
Each of the genetically
identical girls was to become
schizophrenic before the age of
28…
What causes schizophreniaWhat causes schizophrenia??
Viral infection in the 2nd trimester of pregnancy
Brain abnormality (enlarged lateral ventricles, low metabolic rate of the prefrontal cortex, abnormal cell arrange in the hippocampus). Usually correlated to negative symptoms
Social influence – highest in poor socioeconomic groups, stressful live events.
The Gray matter is the cortex of the brain which contains nerve cells body.
What causes What causes schizophreniaschizophrenia??
parietal lobe logic
hearing
What causes schizophreniaWhat causes schizophrenia??
Biochemistry - “dopamine hypothesis” - dopamine levels increase in the brain. (Dopamine is a neurotransmitter that transports signals between nerve endings in the brain).
(antipsychotic drugs = dopamine antagonists, L-dopa, cocaine, amphetamine) – only effective only for the positive symptoms.
Dopamine D2 receptor
•Found on chromosome 11q22-23
•Binding site of many psychoactive drugs
Chlorpromazine
ANTIPSYCHOTIC DRUGS
TYPICAL ATYPICAL
D2 Receptor Other dopamine receptors and 5HT2 receptor
Treat mainly positive symptom
Efficacy – 60%
Treat negative symptoms too,
Efficacy – 85%(less relapses)
THE PHARMACOGENOMIC THE PHARMACOGENOMIC HYPOTHESIS: DRUG EFFICACY RELEATE HYPOTHESIS: DRUG EFFICACY RELEATE
TO GENETIC REASONSTO GENETIC REASONS
Drug mechanism- identify how drug ‘works’ block dopamine receptors
Target – identify those gene products implicated in the mechanism of the drug Dopamine receptor
Candidate gene – identify the gene that have been found to be associated with the disease DRD2 receptor (dopamine
receptor D2 ).Gene variants 141 C Del/Ins, TaqI A
141C Del/Ins polymorphism141C Del/Ins polymorphism
• deletion of cytosine 141 in the promoter region upstream from the transcription start site
• Associated with schizophrenia in Japanese, Swedish and Portuguese population
• In vitro – del allele is directly related to DRD2 expression• Individuals with no del allele had lower striatal density of dopamine receptor
TaqI polymorphismTaqI polymorphism
• localized 9.5 kb downstream from the DRD2 gene
• restriction fragment length polymorphism creating A1 and A2 allels
• A1 allele -lower density of DRD2 in the caudate nuclei and striaum
• A2 allele - decrease in the binding potential of the D2 receptor
• Controversy about the linkage to schizophrenia
Wu S,. Xing Q,. Gao R,. Li X, Gu N,. Feng Wu S,. Xing Q,. Gao R,. Li X, Gu N,. Feng G,.& He L. (2005).Response to G,.& He L. (2005).Response to chlorpromazine treatment may be chlorpromazine treatment may be associated with polymorphisms of the DRD2 associated with polymorphisms of the DRD2 gene in Chinese schizophrenic patients. gene in Chinese schizophrenic patients. Neurosci LettNeurosci Lett. . 376(1)376(1):1-4. :1-4.
Purpose of the study: Purpose of the study: examine whether the DRD2 gene contribute to the therapeutic effect of chlorpromazine
in schizophrenia by investigating the potential genetic role of the 141C Ins/Del
and TaqIA polymorphism in the DRD2 gene
Patients :Patients : - Chinese population - Chinese population - mean age – 27.3- mean age – 27.3 - 2 or more characteristic symptoms- 2 or more characteristic symptoms according to the DSM –3R according to the DSM –3R (Diagnostic and Statistical manual of Mental (Diagnostic and Statistical manual of Mental Disorder ).Disorder ).
- first time to be treated with- first time to be treated with chlorpromazinechlorpromazine - 8 weeks of treatment- 8 weeks of treatmentAssessment:Assessment: clinical symptoms were evaluated clinical symptoms were evaluated by BPRS (brief psychiatric rating scale) by by BPRS (brief psychiatric rating scale) by
two psychiatrics (given no information two psychiatrics (given no information about the patient’s genotype).about the patient’s genotype).
Results 1 : the frequency of Dell Results 1 : the frequency of Dell allele is higher in non responders allele is higher in non responders than in respondersthan in responders
141C Ins/Del Genotype
frequencyIns/Ins Ins/Del Del/Del
Responders 61 53) 86.9( 6) 9.8( 2) 3.3(
Non responders 74 53) 71.6( 21) 28.4( 0)0(
P=0.01
Results 2 : no association between Results 2 : no association between A1 allele and the drug responseA1 allele and the drug response
TaqI A Genotype
frequencyA2/A2 A1/A2 A1/A1
Responders 61 18) 29.5( 27) 44.3( 16 )26.2(
Non responders 74 22) 29.8( 32) 43.2( 20)27(.
NO SIGNIFICANT RESULTS!
conclusionconclusion::
Del allele of the 141C Ins/Del polymorphism might predict therapeutic response to chlorpromazine in schizophrenia probably due to alteration of the D2 receptor density but that the A1 allele of the TaqI A polymorphism have no such effect
Del alleleDel allelelow therapeuticlow therapeutic
response to response to chlorpromazinechlorpromazine
Higher density of the D2 receptor
Other studies:Other studies:- (Suzuki A, Kondo T, Mihara K, Yasui-Furukori N, Ishida M, Furukori H, Kaneko S, Inoue Y, (Suzuki A, Kondo T, Mihara K, Yasui-Furukori N, Ishida M, Furukori H, Kaneko S, Inoue Y,
Otani K.(2001).Otani K.(2001).The -141C Ins/DelThe -141C Ins/Del polymorphism in the polymorphism in the dopamine D2 receptor gene promoter region is dopamine D2 receptor gene promoter region is associated with anxiolytic and antidepressiveassociated with anxiolytic and antidepressive effects effects during treatment with during treatment with dopamine antagonistsdopamine antagonists in in schizophrenic patientsschizophrenic patients. . PharmacogeneticsPharmacogenetics. 11(6):545-50). 11(6):545-50)
- Arranz, M.J., Li, T., Liu, X., Murray, R. Collier, D.A. Kerwin, R.W.(1998). Arranz, M.J., Li, T., Liu, X., Murray, R. Collier, D.A. Kerwin, R.W.(1998). Lack of Lack of associationassociation between a polymorphism in the promoter between a polymorphism in the promoter region of the dopamine-2 receptor gene and region of the dopamine-2 receptor gene and clozapine clozapine responseresponse. . Pharmacogenetics. 8(6):481-4.Pharmacogenetics. 8(6):481-4.
AdvantagesAdvantages DisadvantagesDisadvantages
• Diagnosis-systematized
• investigators blinded to the patient genotype
• Prior medical treatment
• Don’t separate positive from negative symptoms
Non small cell lung cancer Non small cell lung cancer - NSCLC- NSCLC
Lung carcinoma is theLeading cause of cancer deths in the USA and worldwide for both men and women.
Rationale: EGFR (epidermal growth factor receptor) over-expressed in lung cancers (and other). EGFR inhibitors block signal transduction and cell proliferationGefitinib : A drug that targets the ATP cleft within the EGFR.
Design:•210 patients from Europe, Australia, South Africa, Japan• Objective tumor response in 19% of patients - mean survival 8 months• Response better among Japanese vs non-Japanese pts
(27.5% vs. 10.4% response; P = 0.002)• Response also better among female pts, adenocarcinoma pts, pts with prior hormonal/immuno treatment, pts with less morbidity
•What is molecular basis of the differential response?
Multi-center trial of EGFR inhibitor to treat Multi-center trial of EGFR inhibitor to treat advanced lung cancer (NSCLC)advanced lung cancer (NSCLC)
Paez JG, Janne PA, Lee JC, Tracy S, Greulich H, Gabriel S, Herman P, Kaye FJ, Lindeman N, Boggon TJ, Naoki K, Sasaki H, Fujii Y, Eck MJ, Sellers WR, Johnson BE, Meyerson M.
EGFR mutations in lung cancer: correlation with clinical response to gefitinib therapy.
Science 304:1497-500, 2004
Lynch TJ, Bell DW, Sordella R, Gurubhagavatula S, Okimoto RA, Brannigan BW, Harris PL, Haserlat SM, Supko JG, Haluska FG, Louis DN, Christiani DC, Settleman J, Haber DA.
Activating mutations in the epidermal growth factor receptor underlying responsiveness of non-small-cell lung cancer to gefitinib.
N Engl J Med 350:2129-2139, 2004
Lung cancer - EGFR inhibitors – Lung cancer - EGFR inhibitors – EGFR somatic mutationEGFR somatic mutation
Activating mutations in EGFR underlying Activating mutations in EGFR underlying responsiveness of lung cancer to gefitinibresponsiveness of lung cancer to gefitinib
•EGFR sequenced in pre-treatment tumor tissue from: •9 responders (tumors that were available), 7 non-responders, 25 untreated patients
Example of improvement after 6 weeks treatment
Most of them were women, had never smoked, and had bronchoalveolar tumors
(9 tumors available from 25 responders)
(25 untreated tumors evaluated)
OverlapAA 747-750
8 out of the 9 patients that were checked for mutations in the tumors and responded to gefitinib had deletions in the tumor cells.And in 7 patients with no response no mutations were observed. (p<0.001)
OverlapOverlap
EGFR mutations in lung cancer: Correlation with EGFR mutations in lung cancer: Correlation with clinical response to gefitinib therapy. Science clinical response to gefitinib therapy. Science
304:1497, 2004304:1497, 2004119 primary lung tumors (58 Japan, 61 US), none treated before, EGFR somatic mutations in 15/58 (26%) of Japanese pts vs 1/61 (2%) of US
pts. Among adenocarcinomas only, mutations in 14/41 (32%) of Japanese pts vs. 1/29 (3%) of US pts
EGFR mutations in lung cancer: Correlation with EGFR mutations in lung cancer: Correlation with clinical response to gefitinib therapy. clinical response to gefitinib therapy.
Science 304:1497, 2004Science 304:1497, 2004Pre-treatment tumors from treated patients: 6 responders, 4 non-responders
EGFR mutations in lung cancer: Correlation with EGFR mutations in lung cancer: Correlation with clinical response to gefitinib therapy. clinical response to gefitinib therapy.
Science 304:1497, 2004Science 304:1497, 2004
exon 21
exon 18
exon 19
Sequence and substitutions alterations at kinase active site.
EGFR mutations in lung cancer: EGFR mutations in lung cancer: Correlation with clinical response to Correlation with clinical response to
gefitinib therapy. gefitinib therapy. Science 304:1497, 2004Science 304:1497, 2004
Mutations may stabilize interaction of EGFR with both ATP (enhancing phosphorylation) and with competitive inhibitor geftinib -> both enhanced inhibition by drug.
EGFR mutations in lung cancer: EGFR mutations in lung cancer: Correlation with clinical response to Correlation with clinical response to
gefitinib therapy. gefitinib therapy. Science 304:1497, 2004Science 304:1497, 2004
• These drug response phenotypes are associated with a set of specific gene alleles.
• Identify populations of people who show specific responses to a drug.
• In early clinical trials, it is possible to identify people who react well and react poorly.
In general :In general :Collect Drug Response DataCollect Drug Response Data
• Scan these populations with a large number of SNP markers.
• Find markers linked to drug response phenotypes.
• It is interesting, but not necessary, to identify the exact genes involved.
Make Genetic Profiles
ProfilesProfiles
Use the Profiles - SummaryUse the Profiles - Summary
• Genetic profiles of new patients can then be used to prescribe drugs more effectively & avoid adverse reactions.
• Can also speed clinical trials by testing on those who are likely to respond well.
Impact on BioinformaticsImpact on Bioinformatics
• Genomics produces high-throughput, high-quality data, and bioinformatics provides the analysis and interpretation of these massive data sets.
• It is impossible to separate genomics laboratory technologies from the computational tools required for data analysis.
DebateDebate
Will it be economical to develop medications and dosages for only a subset of the population?
