Lecture 12.

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    Khadija

    Cards (57)

    • Cell Death.
      - Process of cells ceasing to function or survive.
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    • Why do Cells Die?
      - Faulty cells that stay without serving its function = has negative effects on organism
      - Not enough nutrients, damage to cells.
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    • 3 Main Cell Death Mechanisms.
      - Type I and II = controlled
      - Type III = uncontrolled.
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    • Type 1: Apoptosis.
      - Controlled cell death vital for organism health
      - Without apoptosis = old, damaged cells remain
      - Occurs automatically at end of cell lifespan.
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    • How does it occur?
      - Shrinkage > blebbing > cytoskeleton detaches from membrane > helps in disassembly of the cell.
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    • Blebbing.
      - Membrane protrusions formed during apoptotic cell shrinkage.
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    • Physiological Relevance - During Development.
      - Apoptosis involved in morphogenesis & tissue remodelling
      - E.g. tadpole tail removed by apoptosis at time of its metamorphosis into a frog
      - E.g. individualisation of digits that occurs in many animals through removal of inter-digital webs
      - Eliminates unwanted cells.
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    • Morphogenesis.
      - Developmental process involving cell shape changes.
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    • Tissue Remodelling.
      - Elimination of organs and tissue only useful during development.
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    • Neurodegenerative Diseases & Organ Failure.
      - Conditions linked to excessive apoptosis in neurons & organs.
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    • Proliferative Diseases.
      - Diseases like cancer associated with defective apoptosis.
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    • Induction Factors.
      - Triggers for apoptosis
      - E.g. DNA damage, hypoxia, oxidative stress, death receptor ligands.
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    • Hallmarks of Apoptosis.
      - Cellular & nuclear shrinkage
      - Disassembly into apoptotic bodies
      - Chromatin condensation & DNA fragmentation
      - Mitochondrial membrane permeabilisation
      - Cytochrome-c release
      - Caspases cascade activation.
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    • Apoptotic Bodies.
      - Membrane-bound fragments resulting from cell disassembly.
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    • Caspases.
      - Proteins that execute apoptosis through a cascade.
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    • Extrinsic Apoptosis.
      - Cell death initiated ligand binding to death receptor
      - Leading to cell death.
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    • Intrinsic Apoptosis.
      - Cell death regulated by internal mitochondrial signals
      - Can control death process
      - Cytochrome c release = permeable membrane.
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    • Cytochrome c release - how does it work?
      - (1) carcinogen/mutagen causing DNA damage
      - (2) p53 detects DNA damage
      - (3) releases BAK
      - (4) triggers mitochondrial membrane permeability
      - (5) cytochrome c release
      - (6) joins caspase 9 (proteins that trigger apoptosis - "initiator caspase")
      - (7) caspase 3 ("executioner caspase").
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    • Is Apoptosis a Slow Process? True or false.
      - True, highly controlled process.
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    • DNA damage can trigger both the extrinsic and intrinsic cell death pathway. True or false.
      - True, extrinsic pathway is triggered by external signals e.g. binding of death ligands to death receptors
      - This binding activates a cascade that leads to activation of caspases > cell death.
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    • Extrinsic Pathway.
      - Triggered by external signals like death ligands.
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    • Death Receptor Ligands.
      - Molecules that bind to receptors triggering apoptosis.
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    • Death Ligands.
      - Bind to death receptors, activating apoptosis.
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    • Changes in the Plasma Membrane Externalisation of Phosphatidylserine.
      - Indicator of apoptosis
      - Marks cells for phagocytosis.
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    • Mitochondrial Membrane Potential Loss.
      - Precedes cytochrome c release into cytosol.
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    • Reliance on Intracellular Proteolytic Cascade.
      - Mediated by caspases
      - Caspase 9 = breaks bond in caspase 3 (activate it) > breaks bonds in processes that trigger apoptosis
      - Activated caspase-3 cleaves various cellular substrates > leading to morphological and biochemical changes
      - E.g. DNA fragmentation, cell shrinkage & membrane blebbing.
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    • Caspase-9.
      - Activates caspase-3 by cleaving its bonds.
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    • Caspase-3.
      - Cleaves substrates causing cell death changes.
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    • Cell-surface (FAS) Death Receptors.
      - Activate the extrinsic pathway.
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    • Bcl-2 (B-cell lymphoma 2) Protein Family & their Control of Apoptosis.
      - Regulates apoptosis; includes pro- and anti-apoptotic members.
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    • Bcl-2 Anti-apoptotic Mechanism.
      - Inhibits cell death.
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    • Bcl-2 Pro-apoptotic Mechanism.
      - Bax
      - Bak
      - Both trigger Cytochrome c release.
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    • Bax.
      - Pro-apoptotic protein that promotes cytochrome c release
      - Bound to mitochondrial outer membrane.
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    • Bak.
      - Pro-apoptotic protein that translocates to mitochondria
      - Located in cytosol, moves upon apoptotic signalling.
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    • Complexity of Bcl-2 Regulation.
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    • IAP Family.
      - Inhibitors of apoptosis proteins that bind caspases and inhibit them.
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    • IAP Mechanism.
      - Proposed model for IAPs and anti-IAPs controlling apoptosis.
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    • Correlation of IAPs Expression and Patient Survival in Different Types of Cancers.
      - Global Prognostic Values of IAPs for patient survival
      - IAPs differed in prognostic values among different cancers
      - Higher IAPs expression = shorter survival.
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    • Summary.
      - Mechanism of programmed cell death
      - Destroy and replace unneeded cells
      - Morphology: cellular & nuclear shrinkage, chromatin condensation, DNA fragmentation, apoptotic bodies
      - Activation = intrinsic/extrinsic
      - Regulation = Bcl-2 & IAP.
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    • Type II Cell Death.
      - Autophagic cell death, distinct from apoptosis
      - E.g. cytotoxic T killer cells.
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