KJB - Pharmacogenetics Flashcards
Failure of drugs is usually at which stage?
Clinical stage
What is the most expensive stage and why?
Clinical trials is most expensive stage due to hiring of health and non healthy volunteers
What are the two past strategies to overcome this?
- Sell low risk follow on drugs
2. Invest money in blockbuster drugs
What is meant by low risk follow on drugs?
(parent molecule that is already known to be effective is modified slightly so that the new drug is still effective but may have different pharmacological profiles/ properties)
How does genetic variation contribute to drug failure?
- Efficacy issues - a significant number of people fail to respond to drug treatment e.g:
- HTN drugs (15-25%)
- Antidepressants (20-50%)
- Cholesterol drugs (30-70%)
- Asthma drugs (40-70%)
- This may be due to underlying genetic differences.
- However need to also consider: age, gender, pathology, other medications etc. - Safety issues - adverse reactions to licensed drugs account for quite a number of:
- Hospitalisations
- Readmissions
- Withdrawing drugs that are already on the market from the market
- They are as costly as the drug treatment itself
- Not entirely down to genetics but may be in part due to genetics
Define pharmacogenetics/genomics.
The study of genetic variation and how that contributes to drug response. Both are closely associated with the concept of personalised/ individualised medicine.
Define pharmacogenetics.
When looking at the impact of just a few genes/ gene polymorphisms on drug response.
Define pharmacogenomics.
When looking at the whole genome differences and how it is related to drug response.
Difference between pharmacogenetics and pharmacogenomics.
Pharmacogenetics only looks at a few genes so it is a limited number.
Where can genetic polymorphisms occur?
Pharmacokinetic: ADME
Pharmacodynamic: Ion channels, Receptors, Immune System, Enzymes
What causes the variation in drug response?
Genetic variation (e.g. SNP - single nucleotide polymorphism) in genes on all of these pathways may lead to people to respond to drugs differently.
What is the clinical potential of PGx?
For the same empirical diagnosis (e.g HTN), we can use the same treatment.
Pharmacogenetic testing allows stratification into groups of patients or subtypes of the disease e.g.
Type 1 - predicted good response to tested drug
Type 2 - predicted poor response = use different drug
Type 3 - predicted increased risk of toxicity = reduce dose OR use different drug
Explain PGx in drug discovery
Aim is to search for drug candidates against all common alleles (a.k.a variants; Type 1, 2 and 3) of a drug target.
- Find a drug that works universally. If not, then:
- Find a drug that works for majority. If not, then:
- Find a drug that works for genetic sub populations
How can you use SNP information in drug target identification?
- Variant drug receptors are a result of gene SNPS.
- If those SNPS ‘cause’ the disease, drug candidates may be designed specifically against THOSE variants.
- If the SNPS prevent treatment success (genetic non responders) that can
a) be identified at an early stage
b) alternative versions of the drug may be designed
Briefly explain PGx clinical trials
- Aim is to redesign them so that they are smaller, cheaper and safer
- Need to use a study population that represents a full spectrum of variants
- Use a study population that represents the most common variant
- Identify non-responders and ADR risk variants early and exclude them
