Bio 406 Lecture 9

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  1. What does ligand binding promote in RTK signaling?
    dimerization and phosphorylation of tyrosine amino acid
  2. What activates receptor tyrosine kinases?
    the binding of the ligand
  3. Which part of an RTK signal is variable and which is conserved?
    Extracellular N-terminal is variable and intracellular C-terminal is conserved
  4. What are examples of families of RTK receptors?
  5. What do RTKs directly activate?
    signaling cascades
  6. What does cross-linking do?
    activates tyrosine kinase activity by phosphorylation
  7. what is cross-phosphoyrlation?
    each RTK in the dimer phosphoyrlates multiple tyrosines on the other RTK
  8. What happens to RTKs after they are phosphorylated?
    they serve as docking platforms for intracellular proteins.
  9. What is Grb2?
    an adaptor protein with SH2 and SH3 binding domains required for EGFR signal transduction.
  10. What does RTK signaling ultimately do?
    leads to changes in gene expression
  11. What makes signaling complex?
    crosstalk between intermediates in various signaling pathways in the cell as the signal travels from the membrane to the nucleus.
  12. How do RTKs activate Ras?
    by causing it to bind to GTP
  13. what is Ras?
    a protein that is tethered to the plasma membrane
  14. What does Ras do once activated?
    activates an enzymatic cascade of MAP kinases resulting in potential changes in the cell such as alteration in key proteins and changes in gene transcription
  15. What are growth factors?
    signaling molecules that bind to RTKs.
  16. What do growth factors do?
    direct cell differentiation and proliferation by determining patterns of gene transcription.
  17. Other than lingands, how can RTKs be activated?
    by ECM proteins and surface proteins such as ephrins.
  18. What are ErbB2 and HER2 overexpression linked to?
    breast cancer recurrence and poor prognosis. It is also the target of Herceptin
  19. What are three ways hyperproliferation can be fixed?
    • 1. neutralizing antibodies block the bioactivity of RTK ligands.
    • 2. TRK targeted antibodies either target overexpressed receptors or receptor heterodimerization
    • 3. small-molecule inhibitors of RTK kinase interfere with RKS signal transduction.
  20. What is Ephrin?
    membrane bound ligands that signal through Ephrin receptors
  21. How does Ephrin signaling occur?
    forward and reverse.
  22. What is Ephrin signaling involved in?
    developmental processes, including axonal guidance and cell migration.
  23. What role does Ephrin signaling play in adults?
    angiogenesis and stem cell differentiation.
  24. How does Ephrin sginaling work in developmental processes?
    mediating a repulsive signal
  25. How do RTKs differ from other cell surface receptors?
    They contain intrinsic enzyme activity
  26. What is cell adhesion signaling?
    To preserve proper tissue architecture, adhesive molecules help maintain contact between nearby cells and structures, an dtiny tunnel-like junctions allow the passage of ions and small molecules between adjacent cells.
  27. What do cell adhesion signaling molecules relay?
    positional information among the cells in a tissue as well as the cells and the extracellular matrix.
  28. Why are cell adhesion signaling pathways important?
    they are critical in maintaining the state of equilibrium known as homeostasis within a tissue
  29. What are integrins?
    adhesion molecules that allow cells to maintain contact with the ECM and connect it to the actin cytoskeleton.
  30. What is the function of an integrin?
    keep the cell adhered to the ECM and send intracellular signals controlling cell shape and migration as it senses the extra cellular environment.
  31. What are integrins made up of?
    two subunits (alpha and beta)
  32. What do integrins form?
    focal adhesions
  33. How do integrins connect to the inside of the cell?
    binds to adaptor proteins that connect to the actin filaments inside the cell
  34. Why are integrins important in a migrating cell?
    endocytosis and recycling of integrin heterodimers at the leading edge are important for the correct turnover and assembly of adhesion sites.
  35. What happens to internalised integrins?
    they are ubiquinated and sorted to lysosomes via multivesicular endosomes.
  36. What are tight junctions?
    between cells are connected areas of hte plasma membrane that stitch cells together.
  37. What are adherens junctions?
    join the actin filaments of neighboring cells togther.
  38. What are desmosomes?
    stronger connections that join the intermediate filaments of neighboring cells.
  39. What are hemidesmosomes?
    connect intermediate filaments of a cell to the basal lamina, a combination of extracellular molecules on other cell surfaces.
  40. What are gap junctions?
    cluster of channels that form tunnels of aqueous connectivity between cells.
  41. How are cells linked togheter?
    side-to-side junctions of proteins with diverse makeup and function interact with similar proteins on adjacent cells.
  42. Where do transmembrane adhesive proteins connect inside the cell?
    to the cytoskeleton
  43. Where inside the cell do adherens junctions bind?
    to cytoskeletal actin
  44. where do desmosomes bind inside the cell?
    to intermediate filaments.
  45. Why are cell to cell junctions necessary?
    they provide cells and tissues with mechanical support and recruit intracellular signaling molecules to relay positional information to the nucleus
  46. What holds together tight junctions?
    occludin and claudin
  47. What do tight junctions do?
    form between epithelial cells to regulate transport of particles between cells and preserve polarity by preventing diffusion of membrane proteins between apical and basal regions.
  48. What is ZO1?
    marker of tight junctions that indicates neuroepithelial polarity and brain morphogenesis.
  49. What do gap junctions do?
    form a pore between adjacent cells allowing small molecules and ions to pass providing metabolic and electrical coupling between cells. (communication)
  50. What is connexins?
    gap junction protein
  51. What do adherens junctions do?
    hold adjacent cells together.
  52. What are the types of adherens junctions?
    • zonula adherens junction
    • synaptic junction
    • intercalated discs
    • autotypic adherens junctions
  53. What are adherens junctions composed of?
    cadherins- a cell membrane glycoprotein
  54. How do cadherins work?
    they act as a zipper between two cells
  55. What links cadherin to actin filaments?
    catenins-zonula adherens adaptor proteins
  56. What shape is the cadherin?
    parallel or cis homodimer
  57. What is inside the cell that the cadherin interacts with?
    p120 catenin, beta-catenin, and alpha-catenin, vinculin, alpha-actinin and formin-1 FINALLY to actin
  58. What does pac mutation do?
    affects cell to cell adhesion in the midbrain-hindbrain region.
  59. How are cadherin homodimers bound together?
Card Set
Bio 406 Lecture 9
Cell signaling
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