3.3.13.5 Action of Anti-Cancer Drugs

Cards (39)

  • What is cancer characterized by?
    Uncontrolled cell growth
  • Match the cell cycle process with the drug class and its mechanism of action:
    DNA Replication ↔️ Antimetabolites: Interfere with DNA synthesis
    Mitosis ↔️ Taxanes: Stabilize microtubules
  • Taxanes stabilize microtubules, disrupting chromosome separation during mitosis.

    True
  • Cancer cells divide and multiply rapidly without the normal regulatory mechanisms.
  • Steps in the action of taxanes during mitosis:
    1️⃣ Stabilize microtubules
    2️⃣ Disrupt chromosome separation
  • Anti-cancer drugs prevent cancer cells from dividing and spreading by disrupting key functions.

    True
  • Arrange the following steps to describe the action of topoisomerase inhibitors:
    1️⃣ Block the activity of topoisomerases
    2️⃣ Interfere with DNA coiling and uncoiling
    3️⃣ Prevent DNA replication
  • Cancer cells develop into mature, specialized cell types.
    False
  • Alkylating agents prevent cancer cells from replicating their genetic material
  • Alkylating agents induce apoptosis or stop cell growth
  • Topoisomerase inhibitors target enzymes involved in DNA coiling and uncoiling.

    True
  • Order the mechanisms by which cancer cells develop drug resistance:
    1️⃣ Increased drug efflux
    2️⃣ Altered drug targets
    3️⃣ Activation of alternative pathways
  • Targeted therapies in anti-cancer drug development focus on specific molecular targets
  • Cancer cells can invade surrounding tissues and spread to other parts of the body through the bloodstream or lymphatic system
  • What happens to cell division in cancer cells?
    Becomes uncontrolled
  • What are the major categories of anti-cancer drugs?
    Alkylating agents, antimetabolites, topoisomerase inhibitors
  • Invasion and metastasis refer to the ability of cancer cells to spread to other parts of the body.
    True
  • Topoisomerase inhibitors block the activity of enzymes involved in DNA coiling and uncoiling.
  • Antimetabolites interfere with DNA synthesis by mimicking essential nucleotides
  • Antimetabolites disrupt nucleic acid production by substituting for essential building blocks
  • Which drug class targets DNA replication and what is its mechanism of action?
    Antimetabolites, mimic nucleotides
  • Alkylating agents attach alkyl groups only to guanine bases in DNA.
    False
  • Match the antimetabolite with its primary mechanism of action:
    Methotrexate ↔️ Mimic natural metabolites
    5-Fluorouracil ↔️ Interfere with DNA synthesis
    Gemcitabine ↔️ Disrupt RNA production
    Azathioprine ↔️ Inhibit nucleic acid production
  • Doxorubicin is an example of a topoisomerase II inhibitor
  • Drug efflux in cancer cells reduces the intracellular concentration of anti-cancer drugs.

    True
  • Match the future directions in anti-cancer drug development with their goals:
    Personalized medicine ↔️ Tailor treatments to individual genetics
    Combination therapies ↔️ Target multiple pathways
    Novel delivery methods ↔️ Improve drug efficacy
  • Anti-cancer drugs target specific cell cycle processes such as DNA replication and mitosis.

    True
  • Antimetabolites interfere with DNA synthesis by mimicking essential nucleotides
  • Match the drug category with its mechanism of action:
    Alkylating Agents ↔️ Add alkyl groups to DNA
    Antimetabolites ↔️ Interfere with DNA synthesis
    Topoisomerase Inhibitors ↔️ Block topoisomerase activity
  • What do antimetabolites mimic to interfere with DNA synthesis?
    Essential nucleotides
  • Which two key cell cycle processes are targeted by anti-cancer drugs?
    DNA replication and mitosis
  • What is the mechanism of action for alkylating agents in anti-cancer therapy?
    Add alkyl groups to DNA
  • What are the three key characteristics of cancer cells?
    Uncontrolled division, invasion, lack of differentiation
  • What is the primary mechanism of action for alkylating agents?
    Add alkyl groups to DNA
  • What structural change in DNA is caused by alkylating agents?
    Breakage of DNA strands
  • How do antimetabolites halt cancer cell growth?
    Inhibit DNA and RNA synthesis
  • What is the result of disrupting DNA coiling and uncoiling by topoisomerase inhibitors?
    DNA damage and cell death
  • What strategy is used to overcome drug resistance in cancer cells?
    Combination therapies
  • What type of anti-cancer strategy harnesses the body's immune system?
    Immunotherapies