Gene Expression and Cancer

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Created by
Samuel Bulmer

Cards (12)

  • Describe how tumours and cancers form:
    Mutations in DNA / genes controlling mitosis can lead to
    uncontrolled cell division
    ● Tumour formed if this results in mass of abnormal cells
    Malignant tumour = cancerous, can spread by metastasis
    Benign tumour = non-cancerous
  • Describe Benign Tumours:
    • Usually grow slowly (cells divide less often)
    • Cells are well differentiated / specialised
    • Cells have normal, regular nuclei
    • Well defined borders and often surrounded by a capsule so do not invade surrounding tissue
    • Do not spread by metastasis (as cell adhesion molecules stick cells together)
    • Can normally be removed by surgery and they rarely return
  • Describe Malignant Tumors:
    • Usually grow faster (cells divide more often)
    • Cells become poorly differentiated / unspecialised
    • Cells have irregular, larger / darker nuclei
    • Poorly defined borders and not encapsulated so can invade surrounding tissues (growing projections
    • Spread by metastasis - cells break off and spread to other parts of the body, forming secondary tumours (due to lack of adhesion molecules)
    • Can normally be removed by surgery combined with radiotherapy / chemotherapy but they often return
  • Describe the function of tumour suppressor genes
    Code for proteins that:
    ● Inhibit / slow cell cycle (eg. if DNA damage detected)
    ● OR cause self-destruction (apoptosis) of potential tumour cells (eg. if damaged DNA can’t be repaired)
  • Explain the role of tumour suppressor genes in the development of tumours:
    Mutation in DNA base sequence → production of non-functional protein
    ○ By leading to change in amino acid sequence which changes protein tertiary structure
    ● Decreased histone acetylation OR increased DNA methylation → prevents production of protein
    ○ By preventing binding of RNA polymerase to promoter region, inhibiting transcription
    ● Both lead to uncontrolled cell division (cell division cannot be slowed)
  • Describe the function of (proto-)oncogenes:
    Code for proteins that stimulate cell division (eg. through involvement in signalling pathways that control cell responses to growth factors)
  • What are Oncogenes?
    A mutated / abnormally expressed form of the corresponding proto-oncogene
  • Explain the role of oncogenes in the development of tumours:
    Mutation in DNA base sequence → overproduction of protein OR permanently activated protein
    ○ By leading to change in amino acid sequence which changes protein tertiary structure
    ● Decreased DNA methylation OR increased histone acetylation → increases production of protein
    ○ By stimulating binding of RNA polymerase to promoter region, stimulating transcription
    ● Both lead to uncontrolled cell division (cell division is permanently stimulated)
  • Suggest why tumours require mutations in both alleles of a tumour
    suppressor gene but only one allele of an oncogene:
    ● One functional allele of a tumour suppressor gene can produce enough protein to slow the cell cycle
    OR cause self-destruction of potential tumour cells → cell division is controlled
    ● One mutated oncogene allele can produce enough protein to lead to rapid / uncontrolled cell division
  • Explain the relevance of epigenetics in cancer treatment:
    Drugs could reverse epigenetic changes that caused cancer, preventing uncontrolled cell division. For example:
    ● Increasing DNA methylation OR decreasing histone acetylation of oncogene
    ○ To inhibit transcription / expression
    ● Decreasing DNA methylation OR increasing histone acetylation of tumour suppressor gene
    ○ To stimulate transcription / expression
  • Explain the role of increased oestrogen concentrations in the development of some (oestrogen receptor-positive) breast cancers:
    1)Some breast cancers cells have oestrogen receptors, which are inactive transcription factors
    2) If oestrogen concentration is increased, more oestrogen binds to oestrogen receptors,
    forming more oestrogen-receptor complexes which are active transcription factors
    3) These bind to promoter regions of genes that code for proteins stimulating cell division
    4) This increases transcription / expression of these genes, increasing the rate of cell division
  • Suggest how drugs that have a similar structure to oestrogen help treat
    oestrogen receptor-positive breast cancers:
    ● Drugs bind to oestrogen receptors (inactive transcription factors), preventing binding of oestrogen
    ● So no / fewer transcription factors bind to promoter regions of genes that stimulate the cell cycle