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Screening for clinically important genes

Screening for clinically important genes. Tuesday 27 th March. Genetic Screening. This can be on newborns (neonatal)… or on unborn babies (amniocentesis, CVS) Or on adults. Genetic screening. Many genetic disorders are the result of gene mutations e.g. deletions or substitutions.

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Screening for clinically important genes

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  1. Screening for clinically important genes Tuesday 27th March

  2. Genetic Screening • This can be on newborns (neonatal)… • or on unborn babies (amniocentesis, CVS) • Or on adults

  3. Genetic screening • Many genetic disorders are the result of gene mutations e.g. deletions or substitutions. • The mutation may result in a dominant allele (e.g. Huntington’s) or a recessive allele (e.g.CF), in which case heterozygous individuals are carriers. • There is usually a family history with genetic diseases, especially for dominant mutations. • It is important to screen individuals who may carry a mutant allele • Genetic counsellors can offer advice to potential parents, who think they may be carriers • Would you want to know?

  4. How genetic screening happens… • Hundreds of different DNA probes are fitted in an array (pattern) on a glass slide. • The donor’s DNA (i.e. the donor is the person wishing to know if they have a mutant allele or not)… • …is first made single stranded…(how?) • …and is then added to the array. • The donor DNA will bind to any probes which are complimentary to its base sequence. • What is an advantage of this technique? • You can screen for many different genetic disorders simultaneously • See Nelson Thornes p272

  5. Oncogenes“oncology” is the study of cancer • Cause cancer • Can be screened for • Tumour suppressor genes inhibit cell division • Some cancers are caused by a mutation which prevents a tumour suppressor gene from suppressing tumours. • Mutations of both alleles are needed to inactivate the suppressor genes and so initiate the development of a tumour • People with one mutated tumour suppressor gene are at greater risk of cancer • So, what is an oncogene? • A mutated version of a proto-oncogene

  6. Mutagens / early diagnosis & treatment • Genetic Screening can tell individuals how at risk of cancer they are. In the light of this knowledge, they can then… • make informed decisions about whether to avoid mutagens or not (e.g. carry on / give up smoking) • Check themselves more regularly for the early signs of cancer e.g. breast lumps  earlier diagnosis  better chance of successful treatment (e.g. gene therapy for liver cancer) • What might the gene therapy involve? • Addition of a supplementary tumour suppressor gene

  7. Genetic Counselling • Aim = to allow individuals to make informed decisions about themselves or their offspring • e.g. a man and a woman want to start a family. They both have relatives with CF, they don’t have CF. • Would you advise a screening test? • Assume they are screened for the mutant CFTR allele and both are found to be carriers. What are their chances of their having a child with CF? • As the allele is recessive, 1 in 4, 25%, 0.25

  8. Carriers of CF • Two carriers have a 1 in 4 chance of having a child with CF. What are their options…? • Natural pregnancy, amniocentesis, possible termination (BUT treatment of CF is improving, there’s the possibility of gene therapy, termination is becoming less necessary; some religions would not allow termination anyway) • Pre-implantation Genetic Diagnosis / Screening (PGD / PGS) • Don’t have children • Adopt • Natural pregnancy, don’t have amniocentesis, possibly have child with CF • Is it cruel to risk having a child with CF? Think: Debilitating lung & digestive symptoms; unpleasant / inconvenient treatment; poor quality of life; possible early death

  9. Genetic Counsellors…have a role before or after conception • Advise whether to screen for mutant alleles (in parents, in fetus) • If parents are screened, explain the probabilities for each genotype / phenotype in the offspring • Explain further tests which could give a more accurate prediction of the outcome of a pregnancy which has already begun • They also give advice on which consequences of having a child with a genetic disease? • Emotional (upsetting for both parent and child) • Psychological (being “different” may affect behaviour) • Medical (possible lifelong pain, treatment) • Social (will they ever “fit in” with peers, gain friends) • Economic (healthcare costs, will they ever work?)

  10. Cancer screening… • Genetic counselling is closely linked to genetic screening, the results of which form the basis for an informed discussion. Screening can detect… • Oncogene mutations. These can predict the kind of cancer and which treatment to give • Other gene changes (in addition to the cancer) that predict if a patient will benefit from a particular treatment. E.g not all women with breast cancer will benefit from the use of Herceptin. • A reappearance of cancer cells indicating a relapse e.g this can happen with patients with leukemia, who are in remission

  11. I advise you to… • Look at the “synoptic exercise” on sickle-cell anaemia in Nelson Thornes p273… • This will prepare you “The Essay”

  12. Implications of Genetic Screening • With information comes power, opportunity and responsibility… • Who decides who should be screened? It’s expensive and budgets are limited • Who has access to the test results? Employers? Insurers? Lenders? • Does a carrier have a responsibility for the alleles they pass on? Note – the genetic disease Tay-Sachs involves constant pain and death at the age of four years • Does mankind have a responsibility to maintain genetic diversity? Should we preserve mutant genes for the sake of human evolution? • Who decides what is a defect? Tay-sachs, yes, but ginger hair…?

  13. Questions • Give two reasons in favour of carrying out genetic screening, and two reasons against doing so. • Outline the process of genetic screening • Genetic screening shows that a person has one mutant allele of the tumour suppressor gene • What is the role of the tumour suppressor gene? • How might the person use the information from the genetic screening test?

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