Cancer pathology

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    Created by
    Ben

    Cards (60)

    • Who is the lecturer for the Introduction to Cancer course?
      Professor Phil Dash
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    • What are the main topics covered in the Introduction to Cancer lecture overview?
      • What is cancer?
      • Hallmarks of cancer
      • Causes of cancer
      • Types and stages of cancer
      • Treatments
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    • What is the common feature of cancer?
      An uncontrolled increase in cell number leading to invasion of surrounding tissues and metastasis
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    • How does cancer affect cell control?
      Cancer is a disease where we lose control over our own cells
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    • What are the hallmarks of cancer?
      1. Self-sufficiency in growth signals
      2. Limitless replicative potential
      3. Insensitivity to antigrowth signals
      4. Resistance to apoptosis
      5. Angiogenesis
      6. Invasion and metastasis
      7. Immune avoidance
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    • What is the role of growth factors in cell proliferation?
      Growth factors are signals that cells receive to proliferate
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    • What happens to cells in the absence of growth signals?
      Cells are not able to proliferate
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    • What initiates the process of cell proliferation in the presence of growth signals?
      The receptor for the growth factor is switched on and becomes active
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    • What is the outcome of the sequence of switches initiated by growth signals?
      Changes in gene expression leading to cell proliferation
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    • What occurs when the growth factor signal is removed?
      All the proteins are switched off and cell proliferation stops
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    • What is an oncogene?

      An oncogene is a gene that, when mutated or overexpressed, can cause cancer
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    • What is the effect of mutations in proto-oncogenes?
      They lead to a gain of function
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    • What is the most common oncogene found in cancer?
      Ras
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    • What percentage of all tumors have a mutant version of Ras that is permanently switched on?
      20-30%
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    • What are some examples of oncogenes?
      • Bcr-Abl
      • myc
      • Src
      • PI3 kinase
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    • How do oncogenes affect cell proliferation?
      They lead to increased activity and cell proliferation in the absence of specific growth signals
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    • What is the role of telomerase in tumor cells?
      Telomerase rebuilds telomeres, allowing tumor cells to be effectively immortal
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    • How many cell divisions are typically limited by telomere shortening?
      40-60 cell divisions
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    • What is the function of tumor suppressor genes?
      Tumor suppressor genes stop tumors from forming
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    • How many hits are typically required to inactivate a tumor suppressor gene?
      Two hits
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    • What are examples of tumor suppressor genes?
      p53 and BRCA
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    • What is the most common mutated gene in cancer?
      p53
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    • What triggers apoptosis in cells?
      DNA damage and viral infection
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    • What family of proteins controls the sensitivity of the cell to apoptosis?
      The Bcl-2 family of proteins
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    • What happens to pro-survival members of the Bcl-2 family in cancer?

      They are commonly over-expressed
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    • What happens to pro-apoptotic members of the Bcl-2 family in cancer?

      They are commonly mutated and non-functional
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    • What is angiogenesis?
      Angiogenesis is the formation of new blood vessels
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    • What is the maximum size of a tumor mass without a blood supply?
      Approximately 106^6 cells (2 mm diameter)
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    • What percentage of cancer deaths are due to metastasis?
      90%
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    • What distinguishes malignant cells from benign cells?
      The acquisition of invasive properties
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    • What is the process by which malignant cancer cells move away from the main tumor?
      Cells "crawl" through the extracellular matrix until they reach a blood vessel
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    • What are the most common sites of metastasis?
      Lung, liver, brain, and bone
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    • What is the new hallmark of cancer related to immune response?
      Immune avoidance
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    • How do tumors avoid the immune response?
      By acquiring mutations that change the structure of proteins to make them look non-self
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    • How often is DNA in a typical cell damaged?
      Around 10,000 times per day
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    • What happens to most DNA damage in cells?
      Most of this DNA damage is repaired
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    • What can lead to mutations in key genes such as proto-oncogenes or tumor suppressor genes?
      DNA damage that is occasionally missed during repair
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    • What are the types of DNA mutations?
      • Point mutations
      • Small insertions/deletions
      • Alterations in transcription/splicing
      • Amplifications/deletions of chromosomal regions
      • Chromosomal translocations
      • Gains and losses of whole chromosomes
      • Changes in DNA modification (e.g., DNA methylation)
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    • What are some causes of DNA mutations?
      UV radiation, viruses, chemicals, free radicals, and copying/repair errors
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    • What can accumulated mutations lead to in cancer?
      Genome instability and an increased likelihood of further mutations
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