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Genetic Aspects of Prevention

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... * Nutrigenomics/genetics Tenets Improper diets are risk factors for disease Dietary chemicals alter gene expression and/or genome structure Influence of diet ... – PowerPoint PPT presentation

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Title: Genetic Aspects of Prevention


1
Genetic Aspects of Prevention
  • Tisha Titus

2
Why Genetics??
  • Interlaced into many aspects of disease
    treatment
  • Rapidly expanding field with broad implications
    for public health and prevention
  • IT IS ON THE BOARDS!

3
Outline
  • Genetics in relation to public health
  • Screening as part of genetics
  • Genetics and health
  • Epigenetics
  • Pharmacogenomics pharmacogenetics
  • Nutrigenomics nutrigenetics
  • Genetics and ethics
  • Georgia laws
  • Case studies (time permitting)

4
Genetics
  • Advancing field of medicine and PH
  • Resulted in 50 new drugs biological agents
  • Insulin
  • Erythropoietin
  • Nerve growth factor
  • Several concerns
  • Self-image self confidence
  • designer babies
  • Eugenics fetal rejection by genome
  • Insurability

5
Genetic Research Advancement
6
Genetic Screening
  • Available for hundreds of disorders
  • Exciting for prevention
  • Worrisome
  • Feasibility
  • Cost
  • Interpretation of results
  • Ethical implications
  • Effects on insurability
  • Genetics associated studies - admixture
  • Human Genome Project

7
Publically Accepted Screening
  • Genes whose effects are attenuated by modifying
    nutrition (DM, high cholesterol)
  • Genes whose effects are attenuated by modifying
    environment or lifestyle (allergies, UV light
    sensitivity)
  • Genes whose presence is considered a marker for a
    life threatening, but potentially curable disease
    (BRCA 12)
  • Genes whose presence affects whether treatment
    with a specific drug is likely to be effective
    (estrogen receptors)

8
What Screening Offers
  • Finding genetic abnormalities
  • Single gene abnormalities (PKU)
  • Multiple gene interactions (DM, obesity)
  • Improving treatment options
  • Drug susceptibility (Cytochrome P450)
  • Identifies tolerance to environmental and
    occupational exposures
  • Protection of hemoglobinopathies (Sickle cell)
  • Metabolic protection (Native Americans)
  • Points of intervention

9
Screening and Intervention
Intervention
10
Screening and Management
11
Epigenetics Primer
  • The study of heritable changes in genome function
    that occur without a change in DNA sequence
  • Gene methylation (Cytosine DNA)
  • Histone acetylation / deacetlyation
  • Genomic imprinting
  • X-chromosome dosage compensation (random
    inactivation)

12
Epigenetic Effects
  • All calico cats are female
  • Random X inactivation
  • Nucleus replacement
  • Development reactivates
  • both X chromosomes and
  • then randomly inactivates
  • No two calico clones will
  • have the same coloring
  • pattern

13
Epigenetics Effects
  • Exposure to
  • Biphenol A changes
  • the expression of
  • coat colors
  • Agouti methylation
  • BPA exposure
  • hinders methylation
  • and lightens coat
  • color
  • Agouti associated
  • with yellow coat
  • obesity

14
Epigenetics Effects
  • Angelman Syndrome
  • Prader Willi Syndrome
  • Dual paternal copies
  • Mental retardation
  • Speech problems
  • Stiff arm movements
  • Stiff, uncoordinated walk
  • Seizures
  • Laughter outbursts
  • Dual maternal copies
  • Poor muscle tone
  • Weak cry
  • Food obsession/ uncontrollable appetite leading
    to obesity
  • Mentally retarded
  • Short stature

15
Pharmacology Genetics
  • Pharmacogenetics
  • Pharmacogenomics
  • The study of inherited difference/variation in
    drug metabolism and response
  • The general study of all of the different genes
    that determine drug behavior

16
Pharmacogenomics/genetics Primer
  • Examines the inherited variations in genes that
    dictate drug response (efficacy toxicity)
  • Explores the ways these variations can be used to
    predict whether a patient will have a good
    response, bad response or no response to a drug

17
Pharmacogenomics/genetics Benefits
  • More powerful medicines
  • Better, safer drugs the first time
  • More accurate methods of determining appropriate
    drug dosages
  • Advanced screening for disease
  • Better vaccines
  • Improvements in drug discovery and approval
    process
  • Decrease in the overall cost of heathcare

18
Pharmacogenomics/genetics Barriers
  • Complexity of finding gene variations that affect
    drug response
  • Limited drug alternatives
  • Disincentives for drug companies to make multiple
    pharmacogenomic products
  • Educating health care providers

19
Pharmacogenomics/genetics Examples
  • Fast slow acetylators of suxamethonium cholride
    with varied recovery effects from anesthesia
  • TPMT and bone marrow supression (those with
    variant alleles need 1/10 of usual dose)
  • Cytochrome P450 metabolism (ultra-rapid, rapid,
    indeterminate and slow metabolizers)
  • CYP 2D6 variants and Tamoxifen response

20
Nutrition Genetics
  • Nutrigenetics
  • Nutrigenomics
  • Examine the effect of genetic variation on the
    interaction between diet and disease or on
    nutrient requirements
  • Looks at the role of genes in determining the
    response to nutrients
  • To study the effects of genetic variation on the
    interaction between diet and disease
  • Looks at the role of nutrients in gene expression

21
Nutrigenomics/genetics Primer
  • Aims
  • To study the genome-wide influences of nutrition
  • Identify genes that influence the risk of diet
    related diseases
  • To understand the mechanisms that underlie
    genetic predisposition
  • Nutrients are dietary signals detected by
    cellular sensor systems that influence
    gene/protein expression metabolite production
    (via transcription factors)

22
Nutrigenomics/genetics Tenets
  1. Improper diets are risk factors for disease
  2. Dietary chemicals alter gene expression and/or
    genome structure
  3. Influence of diet on health depends upon an
    individuals genetic make-up
  4. Genes regulated by diet play a role in chronic
    disease
  5. Individualized nutrition (diets based on
    genotype, nutritional requirements and status)
    prevent mitigate chronic disease

23
Nutrigenomics/genetics Barriers
  • Food is complex
  • Most nutrients are weak dietary signals must be
    considered in the context of chronic exposure
  • Need to demonstrate measurement of weak dietary
    signals or detection of nutrient deficiency
  • Understanding polygenetic diet related disease
  • Preparation for genome-scale questions
  • Cost

24
Nutrigenomics/genetics Challenges
  • Identify nutrient influenced molecular pathways
  • Determine the down-stream effects of specific
    nutrients
  • Identify specific polymorphisms that are linked
    to altered risk of disease or sensitivity to diet

25
Nutrigenomics/genetics Examples
  • Alcohol effects on LDL based on ApoE genotype
  • ApoE4 elevated LDL with moderate alcohol intake
  • ApoE2 effects reversed (generally protective)
  • MTHFR and vascular health
  • MTHFR allele carriers with relative folate
    deficiency develop high homocysteine (independent
    CV risk factor negative indicator of vascular
    health)
  • Salt sensitivity (50) with hypertension

26
Genetics and Ethics
  • Who owns genes (commercialization)
  • For profit screening
  • Cost of screening and intervention
  • Patient rights / privacy / confidentiality
  • Right to results / fairness of information use
  • Insurance disputes
  • Psychological impact / stigmatization
  • Reproductive decision making
  • Interpretation uncertainties

27
Georgia Genetics Laws
  • No legislation for
  • Licensure of genetic counselors
  • Genetic employment laws
  • Cloning laws
  • Life, disability or long-term care insurance
  • Stem cell research
  • We do have
  • Genetic privacy laws
  • State antidiscrimination laws (insurance)
  • Newborn screening

28
Georgia Genetic Laws Cont
  • Genetic Privacy
  • Consent for genetic testing
  • Consent for genetic information disclosure
  • Genetic information defined as personal property
  • Specific penalties for genetic privacy violations
  • Antidiscrimination
  • Cant establish rules of eligibility based on
    genetic information
  • Cant require genetic tests/information
  • Cant use genetic information for risk selection
    and/or classification
  • Cant disclose information without consent

29
Take Home
  • Genetics is becoming increasingly more important
    for public health and prevention
  • Currently limited in scope
  • Clouded in controversy
  • Many anticipated changes ahead
  • Policy guiding research
  • Research application to public private
    practices (including funding)
  • Confidentiality
  • Equity of care
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